mentor speaking to classroom of students

Custer Speaker Series

"The speaker series is a learning experience that will challenge and excite you. I hope it will show you what an exciting future you can have and gives you a real-work experience along with some out of the box learning." - David Custer, CEO, Custer, Inc., and sponsor of the Custer Speaker Series

Open to the public, our speaker series is designed for students and community members to hear from professionals on topics that broaden attendees鈥 understanding of the world and add depth to experiences. It is also an opportunity for our alumni and community members to engage with our students, potential future employees. 

For more information about the Custer Speaker Series, email Lindsey Haehnel.

2024-25 events

Multiscale Modeling of Advanced Composite Structures with the NASA Multiscale Analysis Tool 

Evan Pineda

Join us 鈥媜n 色色啦's Parkview Campus for a presentation with Dr. Evan J. Pineda, a research aerospace engineer in the multiscale and multiphysics modeling branch in the materials and structures division at the NASA Glenn Research Center in Cleveland, Ohio.

  • Wednesday, March 12, at 11 a.m. 
  • D-109, Floyd Hall
  • Beverages and cookies served
  • Open to the public

The NASA Multiscale Analysis Tool (NASMAT), developed at the NASA Glenn Research Center, is a robust and efficient multiscale modeling platform and has been applied to a wide variety of composite applications. During this seminar, an introduction into multiscale modeling, and NASMAT, will be presented, followed by specific examples on the use of NASMAT to solve challenging engineering problems in composites that are relevant to NASA. Examples will include modeling of micropillar experiments for validation of the micromechanics theories, 3D woven composite, thermoplastic composites including effects of processing, multiphysics applications, and dry fabrics. In addition, coupling of NASMAT to the finite element method will be presented and demonstrated with an example of a ceramic matrix composite turbine vane undergoing damage.

About Evan Pineda

Dr. Evan J. Pineda has over 15 years of professional experience at NASA in multiscale modeling of heterogeneous materials with a focus on progressive damage and failure analysis. He is the lead developer for the NASA Multiscale Analysis Tool (NASMAT) being developed under the Transformational Tools and Technologies (TTT) program in support of the 鈥淰ision 2040: A Roadmap for Integrated, Multiscale Modeling and Simulation of Materials and Systems.鈥 Throughout his career, he has served as an expert on damage tolerance and fracture control for NASA鈥檚 heavy lift launch vehicles and is currently working on the Space Launch Systems Universal Stage Adapter project with a focus on bonded joints for composite structures. Currently, he is developing multiscale models for semi-crystalline thermoplastic composites for the Thermoplastics Development for Exploration Applications for welded composite joints in a space environment, Cryotank Technology for Exploration Applications, and a joint project with the Office of Naval Research (ONR) focused on Tailored Universal Feedstock for Forming composites. Dr. Pineda is exploring novel experimental techniques to validate micromechanics and multiscale models at the microscale as part of a NASA Center Innovation Fund.

Thermal Runaway Observations of Large-format LFP Batteries and the Implications for Electric Vehicle Applications鈥

Linghong Zhang

Join us 鈥媜n 色色啦's Parkview Campus for a presentation with Dr. Linghong Zhang鈥, global application specialist at 3M鈥.

  • Friday, April 4, at 10 a.m. 
  • Parkview Room D-132, Floyd Hall鈥 
  • Beverages and cookies served
  • Open to the public

Lithium iron phosphate (LFP) is a well-established cathode chemistry for lithium-ion batteries and has been gaining attention for use in electric vehicles due to its lower cost and proposed safety. Despite the claim of LFP鈥檚 safety at a material level, the question remains how this translates at the large format cell battery pack level. 

In this talk, thermal runaway behaviors of LFP vs. NMC battery cells are compared based on single-cell and 3-cell thermal runaway testing and factors such as cell capacity between-cell gap and material choices are further investigated to understand their impact on the thermal propagation observations of LFP cells. Based on the observations, the key safety pain points that need to be addressed to optimize a LFP battery pack will then be discussed. 

About Linghong Zhang

Dr. Linghong Zhang works at 3M as a global application specialist in e-powertrain and supports the development and application of 3M鈥檚 materials solutions into the EV battery packs. She is also a lithium-ion battery chemist with extensive experience with battery research and development and technology scale-up. Linghong received her b补肠丑别濒辞谤鈥檚 degree in materials science and engineering from Zhejiang University in 2011, and her Ph.D. in chemistry from University of Wisconsin-Madison in 2015. She has also worked as a postdoctoral researcher at Argonne National Laboratory and as a senior scientist and team lead at A123 Systems. 

Generative AI/LLM Application: Building a Planetary Scale Service at Microsoft and Amazon

gang chen headshot
Background created using Adobe Photoshop generative AI

Join us 鈥媜n 色色啦's Parkview Campus for a presentation with Gang Chen, M.S.鈥98鈥, senior manager of AI engineering at鈥 Amazon鈥. 

  • Friday, Nov. 15, at 10 a.m. 
  • Parkview Room D-132, Floyd Hall鈥 
  • Beverages and cookies served
  • Open to the public

About Gang Chen

色色啦 Michigan University computer science alumni, Gang Chen, M.S.鈥98, is making strides in some of the fastest moving industries of artificial intelligence (AI) and machine learning (ML). After gaining over 20 years of experience as a software design engineer and later a principal engineering manager at Microsoft, Chen now works as a senior manager at Amazon in Amazon鈥檚 Artificial General Intelligence group managing several engineering teams that work in key areas of generative large language model (LLM) initiatives that power various customer experiences.  

Pressure-Density-Temperature Measurements and their Derived Properties at High Pressure

Gustavo Iglesias鈥 headshot

Join us on 色色啦's Parkview Campus for a presentation with Gustavo Iglesias鈥, professor鈥 at Technological Institute of Celaya, Mexico.

  • Wednesday, Nov. 6, at 1:30 p.m. in room C-136, Floyd Hall鈥
  • Thursday, Nov. 7, at 10 a.m. in room A-120, Floyd Hall
  • Beverages and cookies served
  • Open to the public

Thermodynamic properties play a key role in the chemical engineering industry. One of these properties is density. High pressure densities are becoming scarce in the literature, but it is important in the design of chemical processes. The vibrating tube technique has been shown to be reliable, but it depends upon the densimeter鈥檚 calibration. In this work, we explain the advantages of using a calibration equation that takes into account the mechanical properties of the cell. We have also measured the density of methyl esters from 273.15-363.15 K at pressures up to 690 bars. These substances have several applications mainly in the biofuels industry. We have derived from our measurements the isothermal compressibility, thermal expansion coefficient, and internal pressures. Since it is easy for the values of these properties to be misrepresented, we provide a method for getting values with the correct pressure behavior. In this talk, Iglesias presents a procedure to develop reference equations of state for pure substances. 鈥

An Alumnus鈥檚 Perspective to Professional Journey

Kenneth Domingue headshot

Join us on 色色啦's Parkview Campus for a presentation with Kenneth Domingue, B.S.E.鈥15, M.S.E.鈥17, project engineer at BAE Systems Inc. 

  • Friday, Oct. 25, at 2 p.m.
  • Room C-124, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

Kenneth Domingue will discuss his perspective to professional journey as an alumni of 色色啦 Michigan University. He will also provide insight on common engineering challenges, explore industry trends and offer career advice to engineering and applied sciences students. Read more about Domingue's work through this Bronco Spotlight by 色色啦's Career and Student Employment Services. 

Liquid Electrolytes for Li Metal Batteries 

Bin Li headshot

Join us on 色色啦's Parkview Campus for a presentation with Bin Li, senior scientist and energy storage research and development lead at Oak Ridge National Laboratory.

  • Thursday, Oct. 31, at 9 a.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

As global electricity is generated, it heavily relies on fossil fuel-based energy sources, which would cause the impending exhaustion of fossil fuels, greenhouse gases emissions and other pollutants that adversely affect ecosystem services and human health. To address those issues, renewable energy is a promising source that can play a vital role in slowing the global warming and fulfilling global energy demand. However, due to the intermittent nature of the renewable energy, technology is becoming more and more important. Among kinds of batteries, Li metal batteries are promising due to high energy density. And liquid electrolyte inside the batteries plays a vital role in improving battery performances. We seek to observe and understand solvent-to-salt interactions that鈥痠mpact electrolyte performance. With the support of both experimental and computational analysis of different electrolyte features, we have begun a methodology of formulating the most ideal Localized High-Concentration Electrolyte (LHCE) mixtures for improving the cyclability of high-capacity battery chemistries. 

AI Security From the Ground Up

Harish Krishnamurthy鈥 headshot

Join us on 色色啦's Parkview Campus for a presentation with Harish Krishnamurthy, M.S.E.'02, product management lead at Microsoft.

  • Wednesday, Oct. 9, at 2:30 p.m.
  • Room C-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About Harish Krishnamurthy

Krishnamurthy currently works at Microsoft and leads a team of product managers, specializing in Cloud infrastructure and Hardware security. Krishnamurthy works on products that touch more than a billion devices, including Microsoft Windows and Xbox. He graduated from 色色啦 in 2002 with a master's in electrical and computer engineering and also has a b补肠丑别濒辞谤鈥檚 degree in electronics and communications engineering from the University of Madras in India. As a product management lead, Krishnamurthy partners with various organizations within Microsoft and with customers to shape the vision and strategy for building the most secure platform for Microsoft products. Outside work, Krishnamurthy loves to spend time with his family, enjoys photography, cars, and travel. He is passionate about raising funds for local charity organizations on a yearly basis and supports educational activities both in Seattle and in India.  

Mastering the Art of Scholarly Publishing

Dr. Chengmei Zhong headshot

Join us on 色色啦's Parkview Campus for a presentation with Dr. Chengmei Zhong, managing editor at American Chemical Society.

  • Monday, Sept. 30, at 11:30 a.m.
  • Room C-122, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

American Chemical Society (ACS) Publications supports researchers in their pursuit to address global challenges, offering a comprehensive array of 90+ peer-reviewed journals to disseminate the latest scholarly findings in chemistry and allied sciences. This tutorial-style talk is aimed to guide researchers in optimal preparation of their scientific manuscripts by providing professional insights on various aspects of scholarly publishing, such as tips for crafting compelling manuscripts that align with the best practices at ACS Publications, selecting the most suitable journal for submission, and understanding the peer review and journal decision process.

About Chengmei Zhong

Dr. Chengmei Zhong is the managing editor of 5 materials science journals in the ACS. He received b补肠丑别濒辞谤鈥檚 degree from Fudan University in 2008 and Ph.D. in materials science from South China University of Technology in 2014. Prior to joining ACS publications division, Dr. Zhong has eight years of research experience in organic electronic materials and devices and ultrafast optical spectroscopy.

Previous Custer Speaker Series events

Flexible Printed Electronics for Robotics and Interactive Systems

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Ravinder Dahiya鈥嬧, professor of electrical and computer engineering at Northeastern University, Boston鈥嬧.

  • Wednesday, May 22, at 2 p.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The miniaturization led advances in silicon-based electronics have revolutionized every socio-economic sector through fast computing and communication. However, it is increasingly being felt that miniaturization alone is insufficient as several emerging applications require electronics in flexible form factors and integrated onto soft materials. The environmental impact of conventional micro/nanofabrication is also of increasing concern. These applications and semiconductor manufacturing related demands call for new resource-efficient methods to fabricate high-performance electronics on unconventional flexible and stretchable substrates. This talk will present recent advances in this direction and focus on approaches such as printed electronics based on high-mobility semiconducting nanostructures, ultra-thin chips for system in foil, and hybrid or heterogeneous integration of the off-the-shelf devices on soft substrates. The talk will also cover innovative resource efficient methods such as roll transfer printing, contact printing and lithography free printing etc., which are expected to transform the way electronics will be manufactured while serving the emerging needs of applications such as robotics, wearables, healthcare and many more.

About Ravinder Dahiya

Dr. Ravinder Dahiya is a professor in the Department of Electrical and Computer Engineering at Northeastern University, Boston. His group, Bendable Electronics and Sustainable Technologies (BEST) conducts research in flexible printed electronics, electronic skin, and their applications in robotics, wearables, and interactive systems. He has authored or co-authored more than 500 publications, books and submitted/granted patents and disclosures. He has also led or contributed to many international projects. Dahiya is currently serving on the board of directors of IEEE as Division X Director-Elect and is the past president of IEEE Sensors Council. He is the editor in chief of npj flexible electronics and also served as the founding editor in chief of IEEE journal on flexible electronics. Dahiya has been on the editorial boards of several other leading journals.

Powering Change: Deep Eutectic Solvents for Energy, Environment and Sustainability

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Santiago Aparicio, professor of Physical and Theoretical Chemistry at University of Burgos, Spain

  • Tuesday, May 28, at 11 a.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

This talk explores the design principles, the power of computational chemistry, and the diverse applications of deep eutectic solvents (DES) in energy, environment, and sustainable technologies. DES are unique mixtures, formed by combining two or more components, possess properties distinct from their individual ingredients.

By delving into the design principles, showcasing the power of computational chemistry, and highlighting their potential across energy, environment, and sustainable technologies, this presentation will position DES as a game-changing class of solvents poised to play a significant role in building a more sustainable future.

About Santiago Aparicio

Dr. Santiago Aparicio is the professor of Physical and Theoretical Chemistry at the University of Burgos where he leads the Computational Chemistry Research Group at as well as in ICCRAM (Institute of Sustainable Materials). He is a leading expert in multiscale materials modeling, green technologies, and sustainable materials development.

Dr. Aparicio has more than 300 publications in top scientific journals and is currently the principal investigator of 20 research projects, funded by European Union (Horizon Program), as well as from several national and international funding agencies.

In addition to his prolific research, he is a passionate educator inspiring the next generation of scientists and engineers to develop innovative and sustainable solutions for a greener future.

A Cybermedical Approach of Taming Cancer

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Levente Kovach, president and professor at Obuda University, Hungary.

  • Wednesday, April 17, at 4:30 p.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About Levente Kovach

Dr. Levente Kovach earned two masters鈥 degrees and his doctorate while pursuing his teaching career. He earned his first masters in electrical engineering from "Politehnica" University of Timi艧oara in 2000 before earning his Ph.D. in electrical engineering from Budapest University of Technology and Economics in 2008. Then in 2011, Kovach graduated with his second master鈥檚 degree in biomedical engineering from Budapest University of Technology and Economics.

Kovach has been teaching since 2001 at universities including Partium Christian University of Oradea, 鈥淧olitehnica" University of Timi艧oara, and Budapest University of Technology. He then became an associate professor at Obuda University in 2012 and now serves as a full-time professor and president of the University. Kovach is also actively involved as a research supervisor, Ph.D supervisor and reviewer, project lead, committee and board member, and speaker. 

Onward and Upward - Oppressor Beware!

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Join us on 色色啦's Parkview Campus for a presentation with Dr. John Blitch, cognitive scientist and emergency response consultant.

  • Wednesday, April 10, at 4:30 p.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About John Blitch

Dr. John Blitch is an award-winning research scientist and former professor with a diverse wealth of experience as a corporate vice president, non-profit director, advanced research and program manager, and small business owner. Blitch is also a retired lieutenant colonel with 5 command tours spanning nuclear weapons delivery, special operations, and hostage rescue at the company grade level. Over the past 40 years, Blitch has created, managed, and led a diverse portfolio of risk-intensive technology development initiatives including special operations, emergency response, and space exploration. His passion for innovative research, selfless service, and reciprocal collaboration between diverse organizations resulted in his induction into the Space Technology Hall of Fame in 2006. He has been featured a number of science documentaries and media broadcasts and has served as a consultant for the White House Office of Science and Technology Policy (OSTP), the Department of Defense (DoD), the National Aeronautics and Space Administration (NASA), and a number of other government agencies throughout the intelligence community and humanitarian assistance realm. Blitch is currently a popular keynote speaker at emergency response conferences throughout the U.S. and remains active in research focused on technology-assisted trauma recovery and unmanned system ethics.

Auditing the World of Micropropulsion

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Oliver Jia-Richards, the assistant professor of aerospace engineering at the University of Michigan.

  • Friday, April 5, at 4 p.m.
  • D-109 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About Oliver Jia-Richards

Dr. Oliver Jia-Richards is an assistant professor of Aerospace Engineering at the University of Michigan and leads the Space Systems Laboratory. His research interests lie in the domain of spaceflight mechanics, with a primary interest in modeling, characterizing, and manipulating forces acting on a spacecraft in order to improve trajectory propagation, understand the expected performance of actuation systems, or enable entirely new actuation methods. Additional interests include the handling of abnormal actuator behavior as well as understanding the impact that operating different actuation systems may have on a spacecraft or the surrounding environment.

Uncovering Fundamental Aerodynamics Enabling the Future Naval Aviation Force

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Join us on 色色啦's Parkview Campus for a presentation with Dr. David Gonz谩lez, acting director for the Naval Air Platforms Division of the Naval Air Warfare and Weapons Department and program officer of aerodynamics at the Office of Naval Research.

  • Monday, April 1, at 1 p.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About David Gonz谩lez 

Dr. David Gonz谩lez is the acting director for the Naval Air Platforms Division of the Naval Air Warfare and Weapons Department at the Office of Naval Research. He received his bachelor's degree in aeronautical engineering in 2003 and master's degree in mechanical engineering in 2005, both from 色色啦 Michigan University. He then transitioned to the Naval Surface Warfare Center at Indian Head, Maryland, where his work focused on computational fluid dynamics analysis and design of tactical solid propellant rocket motors for the U.S. Navy. Dr. Gonz谩lez received his Ph.D. in 2016 from The Ohio State University under a SMART Fellowship, focusing his research on Lagrangian approaches for the analysis of complex compressible jet flow fields and novel techniques for large-eddy simulations. He has served as the program officer for the aerodynamics portfolio at the ONR since 2020 and is an associate fellow of the American Institute of Aeronautics and Astronautics.

Microgravity, a Powerful Tool to Understand Combustion

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Mitsuaki Tanabe, department chair and researcher at Nihon University in Japan.

  • Friday, March 29, at 1:30 p.m.
  • D-115, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

About Mitsuaki Tanabe

Dr. Mitsuaki Tanabe obtained his engineering degree in 1991 and commenced his professional journey in the realm of microgravity combustion research at the University of Bremen, Germany in the Center of Applied Space Technology and Microgravity. Tanabe then earned his Ph.D. in 1996 from the University of Tokyo and has since been actively engaged in the Department of Aerospace Engineering at Nihon University, where he presently holds the position of department chair. His research pursuits primarily focus on intricate challenges within combustion dynamics, encompassing areas such as combustion instability, spontaneous ignition, and detonation transitions prevalent in rocket combustors and automotive Internal Combustion Engines (ICEs). Employing microgravity experiments, Dr. Tanabe endeavors to elucidate the fundamental processes underlying these dynamics, liberated from the influences of buoyancy convection. Currently, Dr. Tanabe assumes the role of principal investigator for two noteworthy international space utilization projects鈥攖he JAXA-DLR-ESA Phoenix-2 sounding rocket campaign and the On-board ISS Flagship Mission by JAXA. Both initiatives are dedicated to exploring the dynamics of cool flame on fuel droplets.

Turbomachinery Rotordynamics

Lin J. Hou

Join us for a virtual presentation with Dr. Lin J. Hou from Spirit AeroSystems.

  • Wednesday, March 27, at 2:30 p.m.
  • Join on 
  • Open to the public

This presentation includes the introduction of rotordynamics, or the study of dynamics behavior of turbomachineries in aerospace and industrial applications, and the analysis and design of rotor bearing characteristics. The design of rotor assemblies is critical to the performance of turbomachineries. Improper design could cause not only the inefficiency of power generation but possible catastrophic damage. With its rich and robust dynamic behavior, rotordynamics provides a fascinating challenge to engineers.

About Lin J. Hou

Dr. Lin J. Hou received his master's degree from Arizona State University in 1987 followed by his Ph.D. from Georgia Institute of Technology in 1992. Before working for Spirit AeroSystems, Hou worked at Royce-Royce as an aircraft engine dynamic specialist then at Pratt & Whitney as a section manager.

Electrode Processing and Manufacturing for Battery Application

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Jianlin Li, department manager of the applied materials division at Argonne National Laboratory鈥.

  • Monday, March 25, at 10 a.m.
  • Parkview Room D-132, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The demand for lithium-ion batteries is ever-increasing with their applications to electrical vehicles and grid storage. Electrode processing and manufacturing plays an essential role in manufacturing cost and performance of lithium-ion batteries. This presentation will discuss several processes in fabricating electrodes and highlight their impact on energy consumption, manufacturing cost, electrode properties, and electrochemical performance.

About Jianlin Li

Dr. Jianlin Li is currently the energy storage and conversion department manager in the applied materials division at Argonne National Laboratory. He leads a department that sustains national leadership in advanced materials manufacturing and process scale up for energy storage and conversion applications. The department aims to be a one-stop shop covering material development to manufacturing of final devices. Dr. Li's research area includes materials synthesis, processing and characterization, electrode engineering, cell manufacturing and prototyping for energy storage and conversion.

Dr. Li received his b补肠丑别濒辞谤鈥檚 degrees in materials chemistry and electronic information engineering and a master鈥檚 degree in materials science from the University of Science and Technology of China. He received his doctorate in materials science and engineering from the University of Florida, and was most recently a senior R&D staff member and leader of the Energy Storage and Conversion Manufacturing Group at Oak Ridge National Laboratory. Prior to joining Argonne, Dr. Li spent almost 14 years at Oak Ridge National Laboratory (ORNL) where he was the leader of the energy storage and conversion manufacturing group. He was among a small team to establish the Battery Manufacturing Facility (BMF) at ORNL in 2012. Dr. Li is also the recipient of several prestigious awards, holds more than 35 patents and patent applications with 7 licensed, has authored more than 170 refereed journal articles and 11 book chapters, and serves as an associate editor for Journal of Energy Storage and IEEE IAS Transportation Systems Committee.

Hardware-in-the-Loop Testing and Validation of AI/ML for In-Space Assembly

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Jonathan Black, flight dynamics thread lead at Northrop Grumman Space Systems鈥.

  • Friday, March 15, at 11 a.m.
  • D-212, Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The production of reusable space vehicles has fundamentally changed how we inject assets into orbit and beyond, increasing the reliability and frequency of launches. Because of this, the rapid development and adoption of new technologies into the aerospace sector, such as computer vision, machine learning, and distributed networking has increased. This talk proposes a novel approach for simulating space-based computer vision sensing and robotic control using both physical and virtual reality testbeds. This methodology is designed to both be affordable and expandable, enabling hardware in the loop simulation and validation of space systems at large scales.

About Jonathan Black

Dr. Jonathan Black began serving as a faculty member in the Aeronautics and Astronautics Department at the Air Force Institute of Technology, Wright-Patterson Air Force Base, Ohio, where he was the founding director of the Center for Space Research and Assurance. After his time there, Dr. Black taught at Virginia Tech as a professor in the Kevin T. Crofton Department of Aerospace and Ocean Engineering. He also served as the director of the Mission Systems Division within the Virginia Tech National Security Institute and the co-director of the Center for Space Science and Engineering Research. Dr. Black is currently the flight dynamics thread lead on the Mission Systems Engineering, Integration, and Test team in the Remote Sensing Programs Business Unit of the Payload and Ground Systems Division of Northrop Grumman Space Systems where he works on requirement verification and validation for a large spaceflight program.

Automation in Action Hands-on Workshop

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Join us on 色色啦's Parkview Campus for a workshop from SMC Corporation, industrial valve manufacturing company. 

  • Tuesday, Feb. 27, at 3 p.m.
  • C-136 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

Pat McCabe, sales manager of SMC Corporation of America, will introduce students to pneumatic technology, displaying products to support automation based on the guiding principle of contributing to automation labor savings in industry. SMC Corporation is an organization based in Japan but has since become a global organization by establishing subsidiaries and joint ventures in 53 countries. SMC Corporation of America serves as the U.S. subsidiary of a company that has been a leader in pneumatic technology and providing industry with superior products and services. 

About Pat McCabe

McCabe, B.S.'85, has been with SMC Corporation of America as a sales manager since 1996 and currently manages 10 account managers and account representatives.

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The Future of the Pulp and Paper and Process Industries: Digitalization and Sustainability

Join us on 色色啦's Parkview Campus for a presentation with Ed Schodowski, B.S.'84, director at Emersion Industrial Software.

  • Friday, Jan. 26, at 9:30 a.m.
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The unprecedented opportunity awaiting the pulp and paper industry over the next five years necessitates mills to elevate their digital maturity to new heights. This emerging era is characterized by a pressing need to swiftly embrace the latest digital technologies, fostering a drive to capitalize on market opportunities while enhancing key performance indicators (KPIs) and sustainability practices. Consequently, the velocity and comprehensiveness of digitalization strategies, employing intelligent industrial applications and advanced analytics based on artificial intelligence (AI), are anticipated to be pivotal in determining success. In this session, we will conduct a high-level overview of the overarching challenges faced by the pulp and paper industry and how automation solutions using AI are poised to address and resolve these challenges effectively. 

About Ed Schodowski

Ed is chairman of Emerson鈥檚 industry council where he oversees Emerson鈥檚 direction and programs for the pulp and paper industry. His 35+ year career in pulp, paper and other process industries has centered on optimizing mills globally through the implementation of new digital automation technologies. 

Contagious Leadership: Your Contagious Presence as a Leader

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Join us on 色色啦's Parkview Campus for a presentation with Priyanka Khandalkar, founder and COO of Scale to Grow LLC, executive coach, operations consultant and podcaster. 

  • Wednesday, November 15, at 6 p.m.
  • D-208 Floyd Hall鈥
  • Beverages and cookies
  • Open to the public

About Priyanka Khandalkar

Priyanka Khandalkar, M.S.鈥15, M.S.鈥10, graduated from 色色啦 with two master鈥檚 degrees in Engineering Management and Industrial Engineering after earning her b补肠丑别濒辞谤鈥檚 degree in Electronics Engineering from University of Mumbai in 2007. Khandalkar currently works as an Operations Management Executive traveling to client鈥檚 location and turning their business around. She enjoys developing and executing effective strategies to improve process efficiency, increase ROI, and ensure continuous business growth. In addition to this work, Khandalkar hosts the top 1% globally ranked podcast 鈥淪how up with Priyanka.鈥

How to Start an Automotive Start-up: Lessons Learned from Being in Business Three Months 

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Dr. Zach Asher

Join us on 色色啦's Parkview Campus for a presentation with Dr. Zachary D. Asher and Bryan Hagenbarth of Revision Autonomy.

  • Wednesday, Nov. 8, at 4 p.m.
  • Parkview Room, D-132 Floyd Hall鈥
  • Open to the public

Have ever worked at a company and been shocked to find that the products they sell are boring or useless? Or maybe the company suffers from bad management with poor promotion procedures? How on earth could you ever be promoted to CEO at this company to make some meaningful change?

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Bryan Hagenbarth

A solution: start your own company, design your own products, and create your own company policies.

In this seminar, we will share some of our personal motivations for starting a company, including lessons learned from the trials and tribulations (so far) of starting a business. And of course, we will be happy to answer any questions from attendees.

Dr. Zach Asher, associate professor in the Department of Mechanical and Aerospace Engineering, is the director of the 色色啦 Energy Efficient and Autonomous Vehicles Lab and co-founder and business & technology director at Revision Autonomy.

Bryan Hagenbarth is a Medallion Scholar and student in the 色色啦's Haworth College of Business, majoring in supply chain management. He is a co-founder and business executive director at Revision Autonomy.

A Lignin Resin as a Carbon-Negative Concrete Alternative鈥擳he BUILD鈥橢M project at NREL

Join us on 色色啦's Parkview Campus for a presentation with Dr. Paul Meyer, researcher, National Renewable Energy Laboratory.

  • Thursday, October 5, at 11 a.m.
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The concrete and cement industry comprises ~6-8% of world emissions, primarily due to the high temperatures and reaction byproducts from making cement. Most concrete projects focus on either carbon capture or supplementary cementitious materials to decarbonize the industry. This project diverges from these strategies by complete replacement of cement. It uses a lignin-based resin system that has the potential to replace cement in concrete while also sequestering biomaterial that would otherwise be burned. This material has shown compressive strengths as high as 10,000 psi (typical concrete is 2,500-4,000), is estimated to be carbon-negative, is scalable to ~100 million tons per year, and is economically competitive.

About Dr. Paul Meyer

Dr. Paul W. Meyer is a researcher at NREL who works at the intersection of polymer chemistry, buildings, and advanced manufacturing. They have a Ph.D. in chemical engineering from the University of Texas at Austin where they studied polymers for photoresists, block copolymer gyroids for battery, water purification, and gas separation membranes, and a unique polyether catalyst system. Meyer鈥檚 primary role at NREL is currently serving as the Principal Investigator to

  1. an advanced manufacturing roll-to-roll, non-evaporative drying process focused on the paper industry, and
  2. a carbon-negative concrete alternative named 鈥淏UILD鈥橢M.鈥

Meyer also serves a supporting role in projects ranging from lignin-based superplasticizers, membranes for electrodialysis, polymer desiccants, and phase change materials for thermal energy storage.

Superabsorbent Polymers for Energy-Efficient Thermal Comfort Control of Buildings

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Shuang (Cynthia) Cui, assistant professor mechanical engineering at the University of Texas at Dallas.

  • Wednesday, October 4, at 11 a.m.
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

The buildings sector accounts for more than 40 percent of all U.S. primary energy consumption and associated greenhouse gas (GHG) emissions. In 2018, approximately 7.59 quads of energy (equivalent to ~$20 billion) was lost through unnecessary large area environmental conditioning and poor thermal insulation of building components, making it imperative to reduce energy consumption in buildings through the development of next-generation, energy-efficient building technologies and practices. Superabsorbent polymers, or hydrogels, are materials that contain more than ~ 90 wt% water and are commonly used in contact lenses, wound dressing, tissue engineering, and drug delivery. Recently, hydrogels have been proposed for temperature and humidity control of buildings due to their superabsorbent and environmentally friendly capability. The goal of this Dr.  Shuang (Cynthia) Cui 鈥榮 study was to develop hydrogels-based materials for energy-efficient thermal comfort control of buildings. Multiple approaches at the forefront of hydrogels for next-generation building technologies have been studied including the development of artificial 鈥榮kins鈥 for building cooling, thermo-responsive adsorbents for moisture control, and composite phase change materials (PCMs) for thermal energy storage.

In this presentation, Cui will discuss the research and implications for artificial skins for the future building sector.

About Dr. Shuang (Cynthia) Cui

Dr. Shuang (Cynthia) Cui is an assistant professor in the Department of Mechanical Engineering at the University of Texas at Dallas. She is also jointly appointed in the Buildings and Thermal Sciences Center at National Renewable Energy Laboratory (NREL). Her research focuses on both the fundamental study of nanoscale heat transfer and energy conversion and advanced materials development, spanning intelligent soft materials and devices for moisture control and composite phase change materials for thermal energy storage.

Cui was a selected participant of the International School for Materials for Energy and Sustainability VIII at Caltech, 2019 U.S. C3E Women in Clean Energy Symposium at Texas A&M University and The Rising Stars Women in Engineering Workshop at Seoul National University (Korea). She is also highlighted by the Department of Energy鈥檚 鈥淲omen @ Energy: STEM Rising.鈥 Cui collaborates with scientists and engineers from diverse fields, including mechanical, electrical, chemical and civil engineers, material scientists, and chemists to pursue her research projects. Her research has been supported by multiple federal agencies (DOE, ARPA-E, NSF, and NREL) and private sector partners (Wells-Fargo) leading to 25 peer-reviewed journal articles and six patents.

Cui received her Ph.D. in mechanical engineering at the University of California, San Diego. She received M.S. and B.S. degrees in thermal engineering at Wuhan University, China. Her previous research focuses on thermal metrology development for nanomaterials and intelligent soft materials and devices for thermal regulation, water harvesting and desalination.

Industrial Research and Development鈥擲ecrets of Success

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Join us on 色色啦's Parkview Campus for a presentation with Mark Loboda, senior vice president of research and development, Hemlock Semiconductor Operations.

  • Monday, October 2, at 10 a.m.
     
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

After spending years in academia and achieving the targeted graduate degree in engineering or sciences, students are faced with the decision鈥攄oes one pursue work in industry? Often during these academic years .students encounter industrial researchers and engineers, maybe even co-op work or internships with a business, but many students still may not get sufficient information regarding what a career path in industry will bring for their future, their career, and work-life vision.

The business of technology is a very different world than what one experiences during college. While offering a great opportunity to achieve impact on the world through science, it also burdens the individual with a competitive, intense and high-risk-high-reward environment.

During this Custer Speaker Series event, Mark Loboda will share insights pertaining to preparation and development of skills to realize a successful career in industry based on his 38-year career as an industrial research and development scientist, including work as an individual contributor, team leader, program director and executive. A roadmap and strategy will be reviewed to help prepare those interested in a career in industry for a decision process and long-term success.

About Mark Loboda

Mark Loboda was awarded B.Sc. and M.Sc. degrees with high honors in applied physics from DePaul University in Chicago. His dissertation on mechanisms of catalysis focused on solid state physics, spectroscopy, automation, and computer technology. Loboda left his home in Chicago  to pursue an industrial career in the defense industry, spending four years as a researcher in the field of high-performance oscillators for radar and guidance systems. He then moved to Michigan where he started a research program developing novel thin film silicon materials for integrated circuit manufacturing, the products enabling today鈥檚 state-of-the-art microprocessors and memory chips.

After 11 years, he focused his research and manufacturing technology for crystal growth processes for semiconductors like silicon, silicon carbide and gallium nitride. Sixteen years later, he joined Hemlock Semiconductor as the senior vice president of research and development, focusing again on silicon materials as well as process engineering and quality.

Over his career Loboda has had the privilege of working side-by-side with the top industrial scientists at companies and laboratories including Raytheon, Dow Corning, United States Department of Defense, United States Department of Energy, IBM, Texas Instruments, Motorola, Intel, Samsung, IMEC (Belgium), ST Microelectronics, Applied Materials, among many others. His technology development work has been documented in more than 100 published papers, awarded 30 globally issued patents, earned an R&D 100 award in semiconductor technology, and led to the initiation of three new businesses,and many commercial products resulting over $2 billion of business revenue career opportunities for many individuals from all over the world.

Where are we on CO2 capture and conversion? 

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Join us on 色色啦's Parkview Campus for a presentation with Dr. Cafer T. Yavuz, professor of chemistry at King Abdullah University of Science and Technology (KAUST). 

  • Wednesday, May 24 at Noon
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

Dr. Cafer T. Yavuz will discuss the challenges of tackling carbon dioxide (CO2) emissions from human activity, and how new catalyst designs can offer plausible solutions for CO2 conversion. While it may be tempting to rely on a single "magic bullet" technology to solve this issue, the reality is that there is no one-size-fits-all solution.

One of the biggest challenges in CO2 capture and storage is the limited capacity of current industrial reuse methods, which can only remove up to 300 million tons/year (Mt/yr) of CO2, whereas the excess emissions are over 42 gigatons/year (Gt/yr). While switching energy sources to renewables or nuclear could help, a more appealing strategy is the conversion of CO2 into useful commodities, such as fuels, plastics, and fine chemicals. This can provide a much-needed economic incentive for CO2 fixation and increase the CO2 market size substantially, enhancing carbon recycling and the conversion of spent carbon to working carbon.

One promising approach is CO2 reforming of methane into synthesis gas (syngas), which can then be converted into fuels, chemicals, and pharmaceuticals using mature technologies. However, the lack of a durable, effective, low-cost catalyst has been a major obstacle to this approach. Our team has developed a Ni-Mo-MgO nanocatalyst (NiMoCat) that has been shown to run over 35 days of continuous activity, effectively addressing this issue. More recently, we have shown that many organic wastes, such as plastics, food, and paper, could be reformed into syngas using NiMoCat and then converted to low carbon fuels. 

About Cafer T. Yavuz

Dr. Cafer T. Yavuz received his Ph.D. from Rice University in 2008 with a Welch scholarship and completed a postdoc at UCSB (2008鈥2010). Currently, he is a professor of chemistry at King Abdullah University of Science and Technology (KAUST) with a research focus on nano and porous materials design and synthesis for applications in the environment, particularly for CO2 capture and conversion. From 2010-20, he worked at Korea Advanced Institute of Science & Technology, jointly appointed at the Department of Chemistry and Department of Chemical and Biomolecular Engineering. He has been nominated twice for the teacher of the year award.

Yavuz earned his M.S. and Ph.D. from Rice University in 2001 with Welch Foundation scholarship under the supervision of Dr. Vicki L. Colvin. His research focused on production of magnetic nanocrystals and their use in arsenic removal. His thesis work received Forbes magazine's "Top 5 nanotech breakthroughs of 2006" and was selected as one of the 鈥淪ix Ideas That Will Change The World" by the Esquire Magazine. He worked as a postdoctoral scholar at the University of California, Santa Barbara with Dr. Galen Stucky on CO2 sequestration, conversion and co-activation with methane (CH4).

He is an editorial noard member at Chem, a prestigious chemistry journal by Cell Press. He also serves on the boards of Cell Reports Physical Science, ACS Applied Energy Materials, ACS Sustainable Chemistry and Engineering, and Advanced Sustainable Systems. He was an editor at RSC Advances and is currently editing at Beilstein Journal of Nanotechnology, a platinum open access journal. He has over 100 publications and 20 registered patents.

Yavuz received his B.S. degree in Chemistry (2001) from the Middle East Technical University, finishing the advanced curriculum in only 3 years and ranking 1st. When he was in high school, he attended the 29th and 30th International Chemistry Olympiads representing Turkey and won a silver and bronze medal.

2023 Overview of AI/ML on the Google Cloud Platform (GCP)

Join us on 色色啦's Parkview Campus for a presentation with Jeremy Wortz, M.S.'06, AI/ML engineer at Google and adjunct professor of tech entrepreneurship at Northwestern University. This event is in collaboration with the 色色啦 Google Developer Student Club (GDSC). 

  • Friday, April 14 at 3:30 p.m.
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public

Wortz鈥檚 presentation will cover his experience as a data scientist, as well as his observations on where the space is going with generative AI. Specifically, the talk will cover the difficulties of getting models into production, the high degree of manual and one-off work, the lack of reusable or reproducible components, the poor handoffs between data scientists and IT, the issue of models breaking due to environmental changes, the lost effort and return on investment and the regulatory and governance pressures. The talk will also include observations on the future direction of the space, with a focus on generative AI. Attendees will gain valuable insights into the ML ops space and learn about the latest advancements in the field.

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About Jeremy Wortz

Jeremy Wortz is a multi-industry data scientist with nearly twenty years of experience, making the connection between business and tech when it comes to analytics and machine learning. He led and delivered advanced analytics projects for Chase, Whirlpool, AstraZeneca, Comcast, Walmart, Con Edison, along with assessing over two hundred analytics firms for M&A transactions. He has also founded and participated in multiple start-ups focused on customer package goods demand analytics using machine learning, building one of the first scalable custom AutoML solutions for demand forecasting. His current focus of research is in applied reinforcement learning for business applications. He has a master鈥檚 degree in applied mathematics from 色色啦 Michigan University and a Six-Sigma Master Blackbelt from Whirlpool Corporation. Jeremy lives in the western suburbs of Chicago with his wife and two kids. He enjoys traveling with his family abroad, and geeking out on tech projects with his kids.

Innovative One Component Coatings with Nanotechnology Enable Performance

Join us on 色色啦's Parkview Campus for a presentation with Dr. Brian Mueller, director of technology at Coval Technologies.

Hosted by the College of Engineering and Applied Sciences

  • Thursday, April 6, at 3 p.m.鈥
  • Parkview Room, D-132 Floyd Hall鈥
  • Beverages and cookies served
  • Open to the public
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Nanotechnology is a commonly used word in coatings with implications of unexpected performance improvements from a typical coating. Technically, it is a label for a branch of technology that deals with particles in dimensions of less than 100 nanometers, with a 1 billionth of a meter. This size offers unique properties for several reasons because it represents a particle size of a solid that is in the same range as the size of a molecule. This creates properties that are consistent with both solids and liquids at the same time.

This presentation will outline the excellent and unique properties achieved by Coval Technologies鈥 coatings, enabled by the incorporation of nanotechnology. First, we will discuss Coval鈥檚 ability to provide a one component system that achieves a better hardness and abrasion resistance than the typical two component systems. In addition, Coval coatings are extremely surface tolerant and achieve excellent adhesion through the formation of covalent bonds. We will show UV, oxidation, and chemical resistance achieved through nanotechnology and present Coval coatings applied to various substrates for antigraffiti and hydrophobic properties. A surface tolerant coating of this type has the ability to replace epoxies and urethanes in many applications. Because adhesion does not require profile or significant surface preparation due to covalent bond formation, it is being considered for some especially challenging applications. We will discuss flooring, wind blades and greener building material uses. 

About Dr. Brian Mueller

Brian Mueller, Ph.D., is an innovative technology manager and scientist. He is experienced in the application of novel approaches in advanced materials and coatings, semiconductor manufacturing, oil and gas, and total well site sustainable solutions. He holds a doctorate in inorganic chemistry from Texas A&M and post-doctoral work in silicon-based materials from the University of Michigan. He has been active in the industrial specialty chemicals field for more than 20 years with claims to over 40 patents. Mueller has worked with industrial maintenance coatings and thin films and in the corrosion fields.

Overview of Battery Standard and Certification for Battery Energy Storage System

Join us on 色色啦's Parkview Campus:

  • Friday, March 31, at 10 a.m.
  • Parkview Room, D-132 Floyd Hall
  • Open to the public

According to a Fortune Business Insight study, the global Battery Energy Storage System (BESS) market size was valued at $9.21 billion in 2021. The market is expected to grow from $10.88 billion in 2022 to $31.20 billion by 2029. Along with the rapid growth, we also saw battery fire incidents that can cause property damage and even loss of life. Battery safety and liability has become a critical issue for battery developers, manufacturers and assemblers.

This talk will present an overview of the battery standard and certification programs, and how these programs ensure the safety and liability of the BESS. Chen will walk through the basics of battery standard and certification, including the scope of different battery standards, construction and test requirement, marking and instruction requirement. A demonstration of BESS tear down analysis will be given to evaluate the compliance of the BESS subassembly. The presentation concludes with suggestions for battery researchers, developers and manufacturers from a compliance point of view.

About Chen

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Dr. Rong Chen is a distinguished battery expert with over 15 years of experience in battery testing and compliance. He joined CSA group in 2018 as a senior battery certifier and was promoted to technical specialist in 2021. His current role is to provide mentoring and training to certifiers working toward battery qualification. As a certifier, he worked on many battery certification projects for large scale BESS, battery fire testing, portable battery, battery charger energy efficiency verification, and cell level certification. Between 2015 and 2018, Chen worked as a material engineer at SECAT Inc. where conducted standardized testing and failure analysis. He also provided consulting services to industrial clients. Between 2009 and 2014, he worked at the University of Kentucky Center for Applied Energy Research to develop spherical carbon nano/micro materials for battery application. Chen completed his Ph.D. in materials science and engineering at the University of Kentucky and his master鈥檚 and b补肠丑别濒辞谤鈥檚 degrees in engineering physics at Tsinghua University in Beijing. Chen has also been a professional engineer since 2013.

Dr. Sergii Aleksieienko

Physical Mechanism of Icing in Airplanes 

Join us on 色色啦's Parkview Campus for this virtual presentation with Dr. Sergii Aleksieienko, head of the Mechatronics Department of Physical and Technical Faculty at Oles Honchar Dnipro National University, Ukraine.

Hosted by the College of Engineering and Applied Sciences. .

  • Friday, March 24, noon
  • Virtual in D-210, Floyd Hall
  • Beverages and cookies served
  • Open to the public

During his talk, Aleksieienko will present his work into the complex problem of designing ice protection systems and determining their effectiveness. 

Aircraft in-flight icing has been internationally recognized as a serious safety problem, which has been receiving increasingly greater attention lately. In certain flight conditions, supercooled water droplets that are contained in clouds may freeze, falling on the fuselage nose, leading edge of the wings, plane fin elements, and aircraft engine components. The most common phenomena caused by icing can be highlighted as follows: decreasing lift and stall angle on the wing, blade, fin elements, the loss of directional stability and controllability of the aircraft.

In most icing program codes, the surface control volume method which is based on the Messinger approach is used. According to this approach, ice is formed on the streamlined surface and unfrozen water flows down this ice in the form of a film. The amount of liquid that flows out of the control volume is determined by frozen fraction received from mass and heat balances for this control volume. Together with this, new correct coordinates of the surface, its temperature and roughness, velocity of water film movement and its thickness, must be determined with every icing step.

However, there is certain contradiction in the heat balance for control volume. As a result, basic cooling by means of convection and evaporation takes place from the warmer external surface of the liquid, whereas phase transition front moves from below. There is also another question regarding spatial ice-water structure formed during the transition of supercooled liquid into the thermodynamic equilibrium. Whether it influences the movement of liquid and how. These questions are particularly topical in case of supercooled large droplet (SLD) as with large liquid water content the understanding of water movement mechanism is especially important.

Thus, the investigation objective of this work was the experimental study of interaction between supercooled large droplets and the icing airfoil surface as well as physical phenomena occurring during the icing process.

Experiments was carried out within a wide temperature range. Photos of the specific moments of the icing process have been analyzed. Splashing events and water movement on the icing surface have been observed. On the basis of the conducted researches, new laws of icing processes and roughness development at micro-level have been established.

The discovered mechanism of liquid movement on the ice surface by 鈥渏umping, 鈥渟plashing鈥 and transfer of the bounced droplets in a thin layer with their subsequent sedimentation, can explain the mechanism of formation of 鈥渉orns," which are characteristic of the glaze ice outgrowths.

Although photographic observations produce only a qualitative representation of the icing processes, it is a step forward to the better understanding of the icing process microphysics. The results of this work can be used for the improvement of the existing techniques modeling icing processes or the development of new ones.

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What鈥檚 out there? A glance at the technology career and landscape

Join us on 色色啦's Parkview Campus:

  • Thursday, March 16, 2:30 p.m.
  • Parkview Room, Floyd Hall
  • Beverages and cookies served
  • Open to the public

Shan Kumar, B.S.鈥06, is a passionate technologist serving as senior vice president and director of IT at MRM/McCann. The challenges that inspire him are focused on developing and utilizing technology to make people more productive and more successful. 

For much of his career, Kumar has been fortunate to make significant technology impacts and play a big role in helping our customers benefit from the technologies that his teams put in place. Along the way, his teams have made dramatic improvements in how client companies have marketed to, interacted with, and serviced their customers. The breadth and depth of these initiatives, combined with the wide variety of business challenges and opportunities are personally and professionally fulfilling for Kumar. 

Kumar has worked with, led, and learned from some amazing people. His work impacts thousands of employees. His teams benefit from a constant stream of issues and opportunities that provide fertile environments for innovation. In his role at MRM, Kumar leads the creation of new systems and applications which address a wide range of business processes and situations.  

Kumar built his career on a foundation of staying on the leading edge of technological discovery, growth, and change. He is especially focused on areas and applications that one day could have a dramatic impact on his company and its customers.  

Safety in Energy Transition and Processing System Digitalization

Join us on 色色啦's Parkview Campus:

  • Thursday, March 2, 2 p.m.
  • Parkview Room, Floyd Hall
  • Beverages and cookies served
  • Open to the public
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In this talk, Dr. Faisal Khan will share the safety concerns related to energy transition and processing system digitalization.

The efforts to use new energy sources are gaining wider acceptance, but there are serious safety concerns that need to be addressed when adopting these alternatives. In evolving energy scenarios, safety and security issues are of pivotal importance. These issues are further enhanced with digitalization, from simple equipment failure to failure of process systems (equipment with electronic systems), monitoring and control systems, data encryption systems, and, most recently, software systems. How these evolving safety and security issues are understood and addressed will govern the overall safety and security of the facilities. Therefore, proactively converting this challenge into an opportunity and holistically developing digital process safety solutions is essential. Dynamic risk management is one approach to address this challenge. The concept of creating a dynamic risk profile for a processing system encompasses the likelihood and consequences of a given abnormal event. Dynamic risk estimation uses Bayesian theory to update the probability of an event occurrence and a generalized consequence algorithm to obtain the given event's relative consequences. This approach results in a risk function with predictive capabilities and the ability to be updated with time. This talk also touches on the details of system advances from the safety and security perspective and the use of the dynamic risk approach.

About Dr. Faisal Khan

Dr. Faisal Khan is the Mike O'Connor II Chair, professor and director of Mary Kay O'Connor Process Safety Center at Texas A&M University. He is also director of the Ocean Energy Safety Institute, a U.S. Department of Energy and U.S. Department of Interior funded applied R&D initiative.

Khan is a former professor and Canada Research Chair (Tier I) of Offshore Safety and Risk Engineering at Memorial University in Newfoundland, Canada. He is the founder of the Centre for Risk, Integrity and Safety Engineering, which has more than research 100 research members. Khan's research interests include energy safety, offshore safety, extreme event modeling, asset integrity and risk engineering.

He is the recipient of the many national and international awards. He continues to serve as a subject matter expert to many multinational oil and gas and processing industries on the issue of safety, risk and asset integrity. He also served as safety and risk advisor to the government of Newfoundland, Canada; the Ministry of Environment, Government of Qatar; and the Ministry of Environment, Government of Peru. He has authored more than 500 research articles that appear in peer-reviewed journals and has mentored 80 doctoral students and 85 master students. He is a fellow of the Canadian Academy of Engineering and editor-in-chief to the Journal of Process Safety and Environmental Protection and Safety in Extreme Environments.

Energy Materials Investigation in Multi-Length Scale by Correlative Electron and Synchrotron X-ray Microscopy

Join us on Friday, Jan. 20

  • 10:30 a.m.
  • Parkview Room, Floyd Hall
  • Beverages and cookies served
  • Open to the public

In this talk, Liu will present recent progress of lithium dendrite platting on Li7La3Zr2O12 (LLZTO) and effectiveness of coating layer on electrodes by scanning electron microscopy (FIB-SEM) and correlative electron and X-ray microscopy method.  

Integrated correlative characterizations provide complementary insights in multi-modalities with a wide range of length scales to understand the working mechanism of functional materials such as catalysis. The characterizations from one platform can identify the area of interest and science to be explored on another. The complementary investigations from correlated platforms could cross verify the true science which might be compromised by experimental artifacts from instrumentation such as beam damage, which is often detrimental for the study of beam sensitive materials such as solid-state electrolyte. Operando characterizations offer great opportunities to understand the working mechanisms of functional materials and devices. The ability to build single particle, all solid-state batteries in microscopy helps us to monitor the structure evolution of cathode, anode and solid electrolyte in real time with the battery at different charges.  

About Liu

Yuzi Liu

Dr. Yuzi Liu is a scientist at Argonne National Laboratory鈥檚 Center for Nanoscale Materials. Prior to joining CNM, Dr. Liu received a three-year (2008-2011) postdoctoral training in the Material Science Division at Argonne National Laboratory and one year (2007-2008) postdoctoral training at University of Texas at Arlington. He achieved his Ph.D. of condensed matter physics from the Chinese Academy of Sciences in 2007. 

Liu is interested in fundamental understanding of working mechanism of functional materials and devices by using microscopy techniques. He has authored and co-authored more than 200 peer-reviewed journal papers. Liu organized symposiums in academic conferences and workshops to serve the research community.  

Challenges and Opportunities of Electrode Materials for Next-Generation Lithium-Ion Batteries

Join us on Friday, December 9

  • 2:30 p.m.
  • Room D-115 Floyd Hall
  • Open to the public

Global climate change and energy security are driving the development of energy storage technologies for transportation systems. In the automotive industry, transformational changes in battery technologies are needed due to the increasing demand for high-power, high-energy density, and long life-span lithium-ion batteries. Tremendous research efforts have been devoted to the development of new materials with higher capacity and long-term durability. Higher capacity electrode materials (such as silicon and lithium) are always accompanied by higher volume expansion, leading to coupled mechanical and chemical degradation and short battery life. To achieve high current efficiency and long cycle life, the solid electrolyte interphase (SEI) along with active materials must be mechanically and chemically stable despite the large volume-change.

In this talk, Xiao will discuss how to understand the coupled mechanical/chemical degradation of SEI layers on those high-capacity electrodes using a comprehensive set of in-situ diagnostic techniques. Based on the learning from the in-situ diagnostics, Xiao will discuss some coating design strategies to achieve high cycle efficiency and extend the cycle life of high energy density batteries for electrical vehicle applications.

About Dr. Xingcheng Xiao 

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Dr. Xingcheng Xiao is a technical fellow at General Motors global research and development center. Before joining GM in 2006, he worked as a research associate at the Argonne National Laboratory and Brown University. He has served as the principal investigator and co-principal-investigator for the projects funded by Department of Energy, National Science Foundation, and Natural Sciences and Engineering Research Council of Canada (NSERC). He is an associate editor for Frontier in Battery and Electrochemistry, principal editor for Journal of Material Research (Materials Research Society), editor on board for Nature Scientific Report, and a member of the international advisor board for Advanced Materials Technology (Wiley-VCH). He has published over 150 peer reviewed journal papers and has over 90 granted patents and 30 pending patent applications in different fields. Among them, more than 20 patents have been used in production or licensed. He is the recipient of Alexander von Humboldt Fellowship (Germany), Asian American Engineer of the Year (AAEOY 2021), R&D 100 Awards (2013 and 2017), and SME Innovations That Could Change the Way We Manufacture (2011).  Xiao obtained his Ph.D degree in materials science from the Chinese Academy of Science.

Critical Developmental Challenges and Potential Advancement Paths for Large Space Nuclear Propulsion Systems

Join us on Thursday, December 1

  • 11 a.m.
  • Parkview Room, Floyd Hall
  • Open to the public

This seminar will present the challenges of developing in-space nuclear propulsion systems and discuss some potential development paths presently being pursued by NASA. 

NASA鈥檚 Space Nuclear Propulsion project is developing the technologies required to advance the readiness of nuclear thermal propulsion and nuclear electric propulsion systems to the level where they can be credibly considered for a range of human missions, including those to Mars. In both systems, many of the critical subsystems are relatively immature and present significant challenges when considering the requirements that must be met to realize a feasible spacecraft design.

The primary nuclear thermal propulsion issues revolve around the temperature at which the nuclear fuel must operate to accelerate the propellant to the required exhaust velocity for a human Mars mission. The fuel must not only survive at temperatures far greater than what is experienced in terrestrial-based nuclear reactors, but it is also exposed to hydrogen propellant, which is chemically reactive at elevated temperatures.  

The subsystems comprising a nuclear electric propulsion system require increasing power throughput by orders of magnitude relative to EP flight- or ground-based technology demonstrations completed to date. Such systems must also operate for extended periods of time with no maintenance.

For both nuclear thermal propulsion and nuclear electric propulsion, significant challenges exist associated with performing ground testing at relevant scales and power levels, making it difficult to mature technologies and to develop an experimental basis to support modeling and simulation activities. 

About Dr. Kurt Polzin

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Dr. Kurt Polzin is chief engineer for space nuclear propulsion at NASA鈥檚 George C. Marshall Space Flight Center in Huntsville, Alabama. He received his B.S. in aeronautical and astronautical engineering from Ohio State University in 1999 and his Ph.D. in mechanical and aerospace engineering from Princeton University in 2006. Polzin joined the propulsion research and development laboratory at NASA-MSFC in 2004 as a propulsion research engineer. Prior to his current position, he was the space systems team lead for the advanced concepts office performing conceptual spacecraft system and mission design and analysis. He is also an adjunct faculty member at the University of Alabama in Huntsville where he has taught in the physics and mechanical and aerospace engineering departments. 

Polzin has co-authored more than 100 technical publications on the testing and modeling of electric and space nuclear propulsion systems and components and is lead author of the forthcoming monograph Circuit Modeling of Inductively Coupled Pulsed Accelerators. He is a senior member of the Institute for Electrical and Electronics Engineers and an associate fellow of the American Institute of Aeronautics and Astronautics, for which he also serves on the electric propulsion technical committee and as the Southeastern U.S. regional director.

Chasing Protons in Lithium Batteries

Join us on Tuesday, October 18

  • 8:30 a.m.
  • Room C-123 Floyd Hall
  • Open to the public
  • Doughnuts and cider will be served

Nickel-rich lithium transition metal oxides have been recently considered as one of most promising cathode materials for high energy density lithium-ion batteries. However, the instability of the cathode electrolyte interface has been the major technological barrier for the development of nickel-rich cathodes. Early research has simply assigned this interfacial instability to the electrochemical oxidation of the commonly used carbonate solvents without much discussion on the nature of the parasitic reactions. A proprietary, high-precision electrochemical system was built in-house to quantitatively measure the rate and kinetics of the side reactions between the delithiated cathode and the non-aqueous electrolyte. Our results clearly indicated the dominant chemical reaction within the working potential window is the chemical, not electrochemical, reaction between the intermediate phase of cathode and the electrolyte, generating locally concentrated protons at the surface of the cathode materials.

Figure 1 shows a generic mechanism of parasitic reactions occurring at the interface of cathode materials. Additional help from advanced characterization tools, including synchrotron probes, will be also be discussed.

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Figure 1: Schematics of parasitic reactions at the cathode surface.

About Zonghai Chen

Dr. Zonghai Chen, senior chemist at Argonne National Laboratory, received his B.S. degree in 1997 and M.S. degree in 2000 from University of Science and Technology of China. He earned his Ph.D. degree in 2004 from Dalhousie University, Canada. His research interests include functional electrolytes and electrode materials for advanced lithium batteries, with particular focus on behavior of materials at extreme conditions and interfacial processes in lithium batteries. His contribution to the field has led to 150+ peer-reviewed articles and 2 R&D 100 awards.

Join us on Tuesday, October 18

  • 3:30 p.m., 色色啦 Fetzer Center
  • Open to the public
  • First 75 receive free books
  • Refreshments served
  • Sponsored by Custer and Paper Technology Foundation 
Gorick Ng

Gorick Ng is a career advisor at Harvard College, specializing in coaching first-generation, low-income students. He has managed new employees at Boston Consulting Group, has worked in investment banking at Credit Suisse, and is also a researcher with the Managing the Future of Work project at Harvard Business School.

Ng has been featured in the Toronto Star, the Globe and Mail, the New Your Post and World Journal and on CBC. Ng is first-generation college student, a graduate of Harvard College and Harvard Business School.

Find him at .

Key Science and Technology Challenges in Current and Future Energy Storage R&D

  • October 6, 2022
  • 10 a.m.
  • D-206, Floyd Hall

This talk will focus on the energy storage systems designated for mobility and electrification in relation with the R&D performed at the US. Department of Energy Battery Manufacturing Facility (BMF) at Oak Ridge National Laboratory (ORNL). BMF receives funds from the US. Government and Industry to sponsor innovations in advanced battery materials research, battery manufacturing science and cell prototyping that enable low-cost, high-power and high-energy, safer and long-life cells capable of fast charging. Being one of the largest open access battery R&D facilities in the Unites States, the facility houses equipment and instrumentation necessary to research every step in the battery manufacturing process with an emphasis on advanced materials, electrode formulation chemistry, innovative coating technology, and high-performance electrode architectures. Resources include three coating lines, a dry room, and a cell assembly line for construction of large-format pouch cells. Collaborations across ORNL strengthen manufacturing science with state-of-the-art materials characterization including advanced microscopy and neutron sciences. BMF research bridges the gap between fundamental materials discovery and requirements for automotive and grid cells with a primary emphasis on integrating next-generation active materials and novel processing methods.

Biography

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Dr. Ilias Belharouak is a distinguished scientist and the group leader of the Battery Roll-to-Roll Manufacturing at Oak Ridge National Laboratory in Tennessee. Ilias also serves as a professor of the Bredesen Center for Interdisciplinary Research and Graduate Education at the University of Tennessee鈥擪noxville. In his role at Oak Ridge National Laboratory, Ilias oversees multidisciplinary R&D programs sponsored by the US. Department of Energy on works relating to battery energy storage and advanced manufacturing. Previously, he was the research director and founding chief scientist of the Electrochemical Energy Storage Center in Qatar Foundation. Ilias also served as a professor at the Hamad Bin Khalifa University (HBKU) for two years. Before joining Qatar Foundation in 2013, he was a material scientist at Argonne National Laboratory, Illinois, from 2001-13.

Ilias has been recognized with several awards including five R&D 100 innovation awards and four U.S. Federal Laboratory Consortium Awards. He published more than 160 peer-reviewed papers, 50 U.S. Patents and Patent Applications and 5 books. He is currently the editor of the Elsevier鈥檚 Journal of Power Sources, holds an h-index of 67 and was invited more than 60-times around the globe. He received a Ph.D. degree (1999) and master鈥檚 degree (1996) in materials science and solid-state chemistry from the Institute for Solid State Chemistry, National Center for Scientific Research, Bordeaux 1 University, France.

The Tool Box of Life

But when I look back at every country visited, every ocean sailed, every hike in nature and every smooth flight , it wasn't so much about the places but the people who made those places mean something. 鈥擱icardo Diniz

 

Solo sailor, coach and entrepreneur

Ricardo Diniz

Ricardo Diniz has sailed the equivalent of nearly four times around the world, with more than 100,000 miles logged. He has become a weather router and expedition manager for climbers, rowers and sailors. In addition to his sailing and other related skills, Diniz is an author and entrepreneur.

Join us for an inspirational presentation on leadership.

  • September 29, 2022
  • 4:30 p.m.
  • 色色啦, Fetzer Center

 

 

 

 

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Join us September 14 for a Custer Speaker Series event featuring author Annie Murphy Paul.

  • Wednesday, September 14, 4:30 p.m.
  • Fetzer Center
  • Free book for the first 75 guests
  • Book signing and light snacks following talk

Annie Murphy Paul is an acclaimed science writer whose work has appeared in the New York Times, the Boston Globe, Scientific American, Slate, Time magazine, and The Best American Science Writing, among many other publications. She is the author of Origins, reviewed on the cover of The New York Times Book Review and selected by that publication as a "Notable Book," and The Cult of Personality, hailed by Malcolm Gladwell in the New Yorker as a 鈥渇ascinating new book.鈥 She has held the Bernard Schwartz Fellowship and the Future Tense Fellowship at New America; currently, she is a fellow in New America鈥檚 Learning Sciences Exchange. She has also received the Spencer Education Reporting Fellowship and the Rosalyn Carter Mental Health Journalism Fellowship. Paul has spoken to audiences around the world about learning and cognition; her TED Talk has been viewed by more than 2.6 million people. A graduate of Yale University and the Columbia University Graduate School of Journalism, she has served as a lecturer at Yale University and as a senior advisor at the Yale University Poorvu Center for Teaching and Learning.

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The Extended Mind: The Power of Thinking Outside the Brain

A bold new book reveals how we can tap the intelligence that exists beyond our brains鈥攊n our bodies, our surroundings, and our relationships

Use your head.

That鈥檚 what we tell ourselves when facing a tricky problem or a difficult project. But a growing body of research indicates that we鈥檝e got it exactly backwards. What we need to do, says acclaimed science writer Annie Murphy Paul, is think outside the brain. A host of 鈥渆xtra-neural鈥 resources鈥攖he feelings and movements of our bodies, the physical spaces in which we learn and work, and the minds of those around us鈥 can help us focus more intently, comprehend more deeply, and create more imaginatively.

The Extended Mind outlines the research behind this exciting new vision of human ability, exploring the findings of neuroscientists, cognitive scientists, psychologists, and examining the practices of educators, managers, and leaders who are already reaping the benefits of thinking outside the brain. She excavates the untold history of how artists, scientists, and authors鈥攆rom Jackson Pollock to Jonas Salk to Robert Caro鈥攈ave used mental extensions to solve problems, make discoveries, and create new works. In the tradition of Howard Gardner鈥檚 Frames of Mind or Daniel Goleman鈥檚 Emotional Intelligence, The Extended Mind offers a dramatic new view of how our minds work, full of practical advice on how we can all think better.

Join us April 5 for a Custer Speaker Series event featuring 色色啦 gardeners Sharon Mullins and Laura Moss who will share their experience supporting bees, collecting and planting native seeds, and restoring the ecosystem on campus.

  • Tuesday, April 5, 12:30 p.m.
  • C-136 Floyd Hall on 色色啦's Parkview Campus
  • Lunch provided

Mullins and Moss have built a pollinator house for native bees on the 色色啦鈥檚 Parkview campus to support bees and all pollinators. They also collect and plant native seeds on campus, often sharing seeds with the 色色啦 community. Restoring the ecosystem on campus is their favorite part of about their job!

Team with large feed house

During this session, you will hear from two Ph.D. students working in the Energy Efficient and Autonomous Vehicle lab about their exciting research projects.

  • March 22 at 12:30
  • D-132 Floyd Hall on 色色啦's Parkview Campus
  • Lunch provided
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Farhang Motallebi

Mobility Energy Productivity Evaluation of Prediction-based Vehicle Powertrain Control Combined with Optimal Traffic Management

Farhang Motallebi, a Ph.D. student in mechanical engineering, will share details about his research鈥擬obility Energy Productivity Evaluation of Prediction-based Vehicle Powertrain Control Combined with Optimal Traffic Management. Araghi works under Dr. Zachary Asher in the Energy Efficient and Autonomous Vehicles Lab. He received his Master of Science in automotive engineering at Iran University of Science and Technology. His research interest is in vehicle automation and intelligent transportation infrastructure. He is focusing on developing technologies in optimization, control and machine learning to improve energy efficiency and mobility for automated vehicles.

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Johan Fanas

Performance Evaluation of an Autonomous Vehicle Using Resilience Engineering

Johan Fanas, a Ph.D. student in mechanical engineering, will present information about his research project鈥擯erformance Evaluation of an Autonomous Vehicle Using Resilience Engineering. Fanas works under Asher in the Energy Efficient and Autonomous Vehicles Lab. He received his Bachelor of Science in mechanical engineering at Technological Institute of Santo Domingo and his Master of Science at 色色啦. His research interest is autonomous vehicles, robotics and artificial intelligence. He focuses on developing new system evaluation metrics for autonomous vehicles, localization, controls and using artificial intelligence to improve operational resilience

Bringing Costco to Kalamazoo: AVB鈥檚 Perseverance and Success

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Join us for a special presentation about perseverance and positivity with Greg Dobson, chief operating officer and principal at AVB Inc., a regional leading development company. Hear how the organization鈥檚 endurance brought Costco to Kalamazoo. Students, faculty, professionals, and community members will learn what it takes to address the challenges in making a project come to life in any professional role or industry. The construction on the 40-acre development of Corner @ Drake began in November of 2013, but land acquisition and planning took place over the course of more than 20 years as AVB envisioned the long-term potential of the property.

Join us for an inspirational presentation on perseverance, leadership and success.

  • March 1, 2022
  • 4:30 p.m., followed by a Q&A session
  • Refreshments following presentation
  • 色色啦, Fetzer Center

About Greg Dobson

Greg Dobson is COO and Principal of AVB, a leading construction and development firm dedicated to great homes, buildings and developments. A 色色啦 alumnus, Dobson first studied paper science, then earned a Bachelor of Business Administration in 1991, followed by a Master of Business Administration in 1995. From 1991 until 1998, he was assistant to the president under 色色啦鈥檚 fifth president, Dr. Diether H. Haenicke. He then  worked as associate athletic director responsible for external affairs and four sports before joining the AVB team in 1999. In 2006 he invested in the firm as a partner and became principal and chief operating officer. He currently serves as president of the 色色啦 Alumni Association.

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Learn How to Learn: Powerful Mental Tools To Help Master Tough Subjects

  • Thursday, Sept. 16, 4:30 p.m.
  • Fetzer Center on 色色啦's main campus (2251 Business Court).
  • Author of A Mind for Numbers, Oakley will provide free books to first 75 色色啦 students and faculty attending the event. 
  • Book signing and light snacks to follow talk.
  • Hosted by the College of Engineering and Applied Sciences and Dr. Matthew Cavalli, Associate Dean for Undergraduate Academic Affairs.
     
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About Barbara Oakley

Barbara Oakley, Ph.D., is the bestselling author of A Mind for Numbers, a professor of engineering at Oakland University in Rochester, Michigan, and a Professional Engineer. Her research involves bio-engineering with an emphasis on neuroscience and cognitive psychology. Oakley is an internationally recognized expert on learning and on creating high-quality online materials for massive open online courses. With Dr. Terrence Sejnowski, Francis Crick Professor at the Salk Institute for Biological Studies, she co-created and teaches one of the world's most popular MOOCs, Learning How to Learn.

For more information about the Custer Speaker Series, contact Carey Schoolmaster.