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Benjamin N. Reinecke
Researcher at Stanford University
Publications - 4
Citations - 3913
Benjamin N. Reinecke is an academic researcher from Stanford University. The author has contributed to research in topics: Oxygen evolution & Density functional theory. The author has an hindex of 4, co-authored 4 publications receiving 3449 citations.
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Engineering the surface structure of MoS2 to preferentially expose active edge sites for electrocatalysis
TL;DR: This work engineer the surface structure of MoS(2) to preferentially expose edge sites to effect improved catalysis by successfully synthesizing contiguous large-area thin films of a highly ordered double-gyroid MoS (2) bicontinuous network with nanoscaled pores.
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Core–shell MoO3–MoS2 Nanowires for Hydrogen Evolution: A Functional Design for Electrocatalytic Materials
Zhebo Chen,Dustin R. Cummins,Benjamin N. Reinecke,Ezra L. Clark,Mahendra K. Sunkara,Thomas F. Jaramillo +5 more
TL;DR: The substoichiometric MoO(3) core provides a high aspect ratio foundation and enables facile charge transport, while the conformal MoS(2) shell provides excellent catalytic activity and protection against corrosion in strong acids.
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Mesoporous Ruthenium/Ruthenium Oxide Thin Films: Active Electrocatalysts for the Oxygen Evolution Reaction
Jakob Kibsgaard,Jakob Kibsgaard,Jakob Kibsgaard,Thomas R. Hellstern,Shin-Jung Choi,Benjamin N. Reinecke,Thomas F. Jaramillo,Thomas F. Jaramillo +7 more
TL;DR: In this paper, the first synthesis of a fully contiguous large area supported thin film of highly ordered mesoporous Ru and RuO2 was reported and the electrocatalytic properties towards the oxygen evolution reaction (OER) were investigated.
Journal ArticleDOI
Elucidating the electronic structure of supported gold nanoparticles and its relevance to catalysis by means of hard X-ray photoelectron spectroscopy
Benjamin N. Reinecke,Kendra P. Kuhl,Hirohito Ogasawara,Lin Li,Johannes Voss,Frank Abild-Pedersen,Anders Nilsson,Thomas F. Jaramillo,Thomas F. Jaramillo +8 more
TL;DR: In this paper, the electronic structure of Au (gold) nanoparticles supported onto TiO2 with a goal of elucidating the most important effects that contribute to their high catalytic activity was reported.