Green Energy Technology Fellowship Winners

green energy technology fellowships
From left to right: Elizabeth Biddinger, City College of New York; Joaquin Rodriquez Lopez, University of Illinois at Urbana-Champaign; Joshua Snyder, Drexel University. CREDIT The Electrochemical Society

The ECS Toyota Young Investigator Fellowship Selection Committee has selected three recipients who will receive a minimum of $50,000 each for fellowships for projects in green energy technology. The winners are Professor Elizabeth Biddinger, City College of New York; Professor Joaquin Rodriguez Lopez, University of Illinois at Urbana-Champaign; and Professor Joshua Snyder, Drexel University.

The ECS Toyota Young Investigator Fellowship, a partnership between The Electrochemical Society and Toyota Research Institute of North America (TRINA), a division of Toyota Motor Engineering & Manufacturing North America, Inc. (TEMA), is in its second year. A diverse applicant pool of more than 100 young professors and scholars pursuing innovative electrochemical research in green energy technology responded to ECS’s request for proposals.

“Scientists and engineers seek to unveil what is possible and to exploit that knowledge to provide solutions to the myriad of problems facing our world,” says ECS Executive Director Roque Calvo. “We are proud to have the continued support of Toyota in this never ending endeavor to uncover new frontiers and face new challenges.”

The ECS Toyota Young Investigator Fellowship aims to encourage young professors and scholars to pursue research in green energy technology that may promote the development of next-generation vehicles capable of utilizing alternative fuels.

Global development of industry and technology in the 20th century increased production of vehicles and the growing population have resulted in massive consumption of fossil fuels. Today, the automotive industry faces three challenges regarding environmental and energy issues:

  1. Finding a viable alternative energy source as a replacement for oil
  2. Reducing CO2 emissions
  3. Preventing air pollution

Although the demand for oil alternatives–such as natural gas, electricity and hydrogen–may grow, each alternative energy source has its disadvantages. Currently, oil remains the main source of automotive fuel; however, further research and development of alternative energies may bring change.

Electrochemical research has already informed the development and improvement of innovative batteries, electrocatalysts, photovoltaics and fuel cells. Through this fellowship, ECS and TRINA hope to see further innovative and unconventional technologies borne from electrochemical research.

“With this year’s winners, we were able to further expand on the number of interesting and innovative technologies covered by this Fellowship,” says Fellowship Chair and manager of Toyota’s North American Research Strategy Office, Paul Fanson. “While the new projects this year focus on traditional applications such as Li-ion batteries and fuel cells, each project proposes unique solutions to known challenges which may also be instructive in other areas. That is the beauty of research. You plant seeds and sometimes unexpected things grow, especially when you are fortunate enough to work with a group of energetic and diverse young faculty such as this year’s winners.”

The selected fellows will receive restricted grants of a minimum of $50,000 to conduct the research outlined in their proposals within one year. They will also receive a one-year complimentary ECS membership as well as the opportunity to present and/or publish their research with ECS.

2016-2017 ECS Toyota Young Investigator Fellows

Professor Elizabeth Biddinger, City College of New York
Industrial Electrochemistry and Electrochemial Engineering Division of ECS
Electrochemical Safety Switch Using Switchable Electrolytes: To examine the use of silylamine reversible ionic liquids that have the ability to have conductivity turned off or on reversibly using carbon dioxide as a trigger for application as a reversible safety switch in high energy density batteries, and the impact of silylamine chemical structure on electrochemical switching properties

Professor Joaquin Rodriguez Lopez, University of Illinois at Urbana-Champaign
Physical and Analytical Electrochemistry Division of ECS
Achieving the Ultimate Performance of Fuel Cell Electrocatalysts via Programmable Electronic Control of Surface Reactivity: To explore the reactive modulation of cathodes for the oxygen reduction reaction using a dynamic surface on which complex perturbations are created during operation and evaluated using advanced electroanalytical tools.

Professor Joshua Snyder, Drexel University
Physical and Analytical Electrochemistry Division of ECS
Electrocatalytic Interface Engineering to Address Scaling Relations in Multi-Intermediate Electrochemical Reactions: To control the interaction of water with electrocatalytic surfaces through the development of metal/ionic liquid composite interfaces and their role in breaking intermediate scaling relations.

The ECS Toyota Young Investigator Fellowship is an annual program, and the 2017-2018 request for proposals will be released in the fall of 2016.

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