G
Gabriel M. Veith
Researcher at Oak Ridge National Laboratory
Publications - 286
Citations - 16397
Gabriel M. Veith is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Electrolyte & Catalysis. The author has an hindex of 64, co-authored 266 publications receiving 13475 citations. Previous affiliations of Gabriel M. Veith include Zhejiang University & Stony Brook University.
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Journal ArticleDOI
Water desalination using nanoporous single-layer graphene
Sumedh P. Surwade,Sergei N. Smirnov,Ivan Vlassiouk,Raymond R. Unocic,Gabriel M. Veith,Sheng Dai,Shannon M. Mahurin +6 more
TL;DR: It is shown that single-layer porous graphene can be used as a desalination membrane using an oxygen plasma etching process and exhibits a salt rejection rate of nearly 100% and rapid water transport.
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Mixed close-packed cobalt molybdenum nitrides as non-noble metal electrocatalysts for the hydrogen evolution reaction.
Bingfei Cao,Gabriel M. Veith,Joerg C. Neuefeind,Radoslav R. Adzic,Peter G. Khalifah,Peter G. Khalifah +5 more
TL;DR: A two-step solid-state reaction for preparing cobalt molybdenum nitride with a nanoscale morphology has been used to produce a highly active and stable electrocatalyst for the hydrogen evolution reaction (HER) under acidic conditions that achieves an iR-corrected current density.
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CO Oxidation on Supported Single Pt Atoms: Experimental and ab Initio Density Functional Studies of CO Interaction with Pt Atom on θ-Al2O3(010) Surface
Melanie Moses-DeBusk,Mina Yoon,Lawrence F. Allard,David R. Mullins,Zili Wu,Xiaofan Yang,Gabriel M. Veith,G. Malcolm Stocks,Chaitanya K. Narula +8 more
TL;DR: The results clearly show that supported Pt single atoms are catalytically active and that this catalytic activity can occur without involving the substrate.
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Lithium salts for advanced lithium batteries: Li–metal, Li–O2, and Li–S
TL;DR: In this article, a review explores the critical role Li-salts play in ensuring in these batteries viability and explores the role of Li-salt in ensuring the battery viability.
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A Superacid-Catalyzed Synthesis of Porous Membranes Based on Triazine Frameworks for CO2 Separation
Xiang Zhu,Chengcheng Tian,Chengcheng Tian,Shannon M. Mahurin,Song-Hai Chai,Congmin Wang,Congmin Wang,Suree Brown,Gabriel M. Veith,Huimin Luo,Honglai Liu,Sheng Dai,Sheng Dai +12 more
TL;DR: A new class of porous polymer membranes with tunable functionalities and porosities can be derived, significantly expanding the currently limited library of polymers with intrinsic microporosity for synthesizing functional membranes in separation, catalysis, and energy storage/conversion.