N
Nemanja Danilovic
Researcher at Lawrence Berkeley National Laboratory
Publications - 65
Citations - 6616
Nemanja Danilovic is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Catalysis & Proton exchange membrane fuel cell. The author has an hindex of 27, co-authored 53 publications receiving 4620 citations. Previous affiliations of Nemanja Danilovic include Argonne National Laboratory & University of Alberta.
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Journal ArticleDOI
Improving the hydrogen oxidation reaction rate by promotion of hydroxyl adsorption
Dusan Strmcnik,Masanobu Uchimura,Chao Wang,Ram Subbaraman,Nemanja Danilovic,Dennis van der Vliet,Arvydas P. Paulikas,Vojislav R. Stamenkovic,Nenad M. Markovic +8 more
TL;DR: It is demonstrated that the HOR can be enhanced more than fivefold compared to state-of-the-art platinum catalysts, and it is proposed that the more oxophilic sites on Ir and PtRu material electrodes facilitate the adsorption of OHad species.
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Design of active and stable Co-Mo-Sx chalcogels as pH-universal catalysts for the hydrogen evolution reaction.
Jakub Staszak-Jirkovský,Christos D. Malliakas,Christos D. Malliakas,Pietro P. Lopes,Nemanja Danilovic,Subrahmanyam S. Kota,Kee-Chul Chang,Bostjan Genorio,Bostjan Genorio,Dusan Strmcnik,Vojislav R. Stamenkovic,Mercouri G. Kanatzidis,Mercouri G. Kanatzidis,Nenad M. Markovic +13 more
TL;DR: By combining the higher activity of CoSx building blocks with the higher stability of MoSx units into a compact and robust CoMoSx chalcogel structure, this work is able to design a low-cost alternative to noble metal catalysts for efficient electrocatalytic production of hydrogen in both alkaline and acidic environments.
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Enhancing the Alkaline Hydrogen Evolution Reaction Activity through the Bifunctionality of Ni(OH)2/Metal Catalysts
Nemanja Danilovic,Ram Subbaraman,Dusan Strmcnik,Kee-Chul Chang,Arvydas P. Paulikas,Vojislav R. Stamenkovic,Nenad M. Markovic +6 more
TL;DR: The hydrogen evolution reaction rate on a Ni electrode modified by Ni(OH)(2) nanoclusters is about four times higher than on a bare Ni surface.
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Dynamic surface self-reconstruction is the key of highly active perovskite nano-electrocatalysts for water splitting.
Emiliana Fabbri,Maarten Nachtegaal,Tobias Binninger,Xi Cheng,Bae-Jung Kim,Julien Durst,Francesco Bozza,Thomas Graule,Robin Schäublin,Luke Wiles,Morgan Pertoso,Nemanja Danilovic,Katherine E. Ayers,Thomas J. Schmidt,Thomas J. Schmidt +14 more
TL;DR: A fundamental understanding of the operando OER mechanism for highly active perovskite catalysts is provided, which significantly differs from design principles based on ex situ characterization techniques.
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Activity–Stability Trends for the Oxygen Evolution Reaction on Monometallic Oxides in Acidic Environments
Nemanja Danilovic,Ramachandran Subbaraman,Kee-Chul Chang,Seo Hyoung Chang,Yijin Kang,Joshua Snyder,Arvydas P. Paulikas,Dusan Strmcnik,Yong-Tae Kim,Deborah J. Myers,Vojislav R. Stamenkovic,Nenad M. Markovic +11 more
TL;DR: It is found that the most active oxides are, in fact, the least stable materials, and the best materials for the OER should balance stability and activity in such a way that the dissolution rate is neither too fast nor too slow.