加州大学伯克利分校化学与生物分子工程系导师教师师资介绍简介-Elton J. Cairns

本站小编 Free考研考试/2022-09-10

Title
Professor of the Graduate School

Department
Dept of Chemical and Biomolecular Engineering


Faculty URL
https://chemistry.berkeley.edu/faculty/cbe/cairns

Research Group
https://cairnslab.lbl.gov/

Email
ejcairns@berkeley.edu

Phone
(510) 486-5028

Fax
(510) 486-7303


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Research Expertise and Interest
electrochemical energy conversion, electrocatalysis, electrodes, x-ray absorption spectroscopies (XAS), synchrotron radiation, nuclear magnetic resonance spectroscopy (NMR), fuel cells, batteries, chemical engineering electrochemistry

Research Description
The?research group of professor Elton Cairns studies the fundamental properties and behavior of electrodes employed in high-performance rechargeable batteries and fuel cells. They synthesize and characterize new electrode materials in order to gain a fundamental understanding of the relationships among atomic and electronic structure, electrochemical performance, and long-term stability. They investigate fundamental means of enhancing material utilization and stability through modifications in the composition and structure of the electrodes, thereby increasing cell specific energy and lifetime.The performance of electrodes employed in fuel cells that directly react such fuels as methanol and ethanol is typically limited by slow electrochemical kinetics. The goals of their research performed on these electrodes are to synthesize new highly active electrocatalysts and characterize their kinetic and mechanistic behavior. By doing this, they identify electrode structures, electrocatalysts, and electrolyte compositions that lead to improved cell performance and lifetime. They rely heavily upon the use of advanced research tools, such as X-ray absorption spectroscopies (XAS) using synchrotron radiation (in collaboration with Prof. S. Cramer of UC Davis), to characterize the atomic and electronic properties of new electrode materials. They pioneered the use of photothermal deflection spectroscopy for the in situ characterization of electrochemical systems. Nuclear magnetic resonance spectroscopy (NMR) has been extended (in collaboration with Prof. J. Reimer of UCB) to the study of adsorbed species on electronically conducting electrode materials. This powerful technique is used for the atomic-level study of electrode materials for both batteries and fuel cells.