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    Energy Technologies Area (ETA) researchers are continually building on the strong scientific foundation we have developed over the past 50 years. We address the world’s most pressing scientific challenges across the buildings, transportation, and industrial sectors. ETA is at the forefront of developing better batteries for electric vehicles; improving the country's aging electrical grid and innovating distributed energy and storage solutions; developing grid-interactive, efficient buildings; and providing the most comprehensive market and data analysis worldwide.

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    The Energy Technologies Area (ETA) is unique in translating fundamental scientific discoveries into scalable technology adoption. Our approach combines an understanding of the marketplace and the role of state and federal regulation and policies. ETA's research drives real-world, practical results that affect and improve the everyday lives of Americans and those across the globe. Saving energy and increasing resilience are key to the foundation of our research, which is driven by technoeconomic analysis and in-lab experimentation and discovery.

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Publications

Publications by Research Area

Buildings
Demand Response
Energy Markets & Policy
Energy Efficiency
Energy Storage
Industrial Energy Analysis
Renewable Energy
Sustainable Energy & Environmental Systems
Transportation

Publications by Division

Building Technology (BTUS)
Energy Analysis (EAEI)
Energy Storage (ESDR)
X Author: Michael J Ulsh

2016

Zenyuk, Iryna V, Nicholas Englund, Guido Bender, Adam Z Weber, and Michael J Ulsh."Reactive impinging-flow technique for polymer-electrolyte-fuel-cell electrode-defect detection."Journal of Power Sources 332 (2016) 372 - 382. DOI

2014

Das, Prodip K, Adam Z Weber, Guido Bender, Austin Manak, Daniel Bittinat, Andrew M Herring, and Michael J Ulsh."Rapid detection of defects in fuel-cell electrodes using infrared reactive-flow-through technique."Journal of Power Sources 261 (2014) 401 - 411. DOI

2012

Aieta, Niccolo V, Prodip K Das, Andrew Perdue, Guido Bender, Andrew M Herring, Adam Z Weber, and Michael J Ulsh."Applying infrared thermography as a quality-control tool for the rapid detection of polymer-electrolyte-membrane-fuel-cell catalyst-layer-thickness variations."Journal of Power Sources 211 (2012) 4 - 11. DOI
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