Dr. David Ramaker and his research group at The George Washington University have developed a new technique called Delta X-ray Absorption Near Edge Structure (delta XANES). The new technique provides information that enables us to understand why some catalysts in fuel cells work better than others, why some get poisoned more than others, and why some age (deteriorate) more than others. Many problems still exist with modern day fuel cells, but this research and other techniques are shedding light on new catalysts that hopefully will alleviate these problems.

GW Faculty Research

The George Washington University

New X-RAY Technique Examines Fuel Cell Operations

MAY 15, 200915 MIN
GW Faculty Research

New X-RAY Technique Examines Fuel Cell Operations

MAY 15, 200915 MIN

Description

Dr. David Ramaker and his research group at The George Washington University have developed a new technique called Delta X-ray Absorption Near Edge Structure (delta XANES). The new technique provides information that enables us to understand why some catalysts in fuel cells work better than others, why some get poisoned more than others, and why some age (deteriorate) more than others. Many problems still exist with modern day fuel cells, but this research and other techniques are shedding light on new catalysts that hopefully will alleviate these problems.