Reshma R Rao
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Explore the profile of Reshma R Rao including associated specialties, affiliations and a list of published articles.
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14
Citations
326
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Recent Articles
1.
Wang T, Iriawan H, Peng J, Rao R, Huang B, Zheng D, et al.
Chem Rev
. 2025 Feb;
125(3):1420-1467.
PMID: 39902648
Water is a salient component in catalytic systems and acts as a reactant, product and/or spectator species in the reaction. Confined water in distinct local environments can display significantly different...
2.
Rao R, Bucci A, Corby S, Moss B, Liang C, Gopakumar A, et al.
ACS Catal
. 2024 Aug;
14(15):11389-11399.
PMID: 39114087
Nickel-based oxides and oxyhydroxide catalysts exhibit state-of-the-art activity for the sluggish oxygen evolution reaction (OER) under alkaline conditions. A widely employed strategy to increase the gravimetric activity of the catalyst...
3.
Lee H, Kim K, Rao R, Park D, Choi W, Choi J, et al.
Mater Horiz
. 2024 Jun;
11(17):4115-4122.
PMID: 38884595
Electrochemical nitrate (NO) reduction to ammonia (NH), which is a high value-added chemical or high-energy density carrier in many applications, could become a key process overcoming the disadvantages of the...
4.
Liang C, Katayama Y, Tao Y, Morinaga A, Moss B, Celorrio V, et al.
J Am Chem Soc
. 2024 Mar;
146(13):8928-8938.
PMID: 38526298
Understanding the effect of noncovalent interactions of intermediates at the polarized catalyst-electrolyte interface on water oxidation kinetics is key for designing more active and stable electrocatalysts. Here, we combine optical...
5.
Moss B, Svane K, Nieto-Castro D, Rao R, Scott S, Tseng C, et al.
J Am Chem Soc
. 2024 Mar;
146(13):8915-8927.
PMID: 38517290
A barrier to understanding the factors driving catalysis in the oxygen evolution reaction (OER) is understanding multiple overlapping redox transitions in the OER catalysts. The complexity of these transitions obscure...
6.
Guo C, Benzie P, Hu S, de Nijs B, Miele E, Elliott E, et al.
Nat Commun
. 2024 Mar;
15(1):1928.
PMID: 38431651
The molecule-metal interface is of paramount importance for many devices and processes, and directly involved in photocatalysis, molecular electronics, nanophotonics, and molecular (bio-)sensing. Here the photostability of this interface is...
7.
Luo H, Yukuhiro V, Fernandez P, Feng J, Thompson P, Rao R, et al.
ACS Catal
. 2022 Dec;
12(23):14492-14506.
PMID: 36504912
Pt-based bimetallic electrocatalysts are promising candidates to convert surplus glycerol from the biodiesel industry to value-added chemicals and coproduce hydrogen. It is expected that the nature and content of the...
8.
Scott S, Rao R, Moon C, Sorensen J, Kibsgaard J, Shao-Horn Y, et al.
Energy Environ Sci
. 2022 Jun;
15(5):1977-1987.
PMID: 35706423
The high overpotential required for the oxygen evolution reaction (OER) represents a significant barrier for the production of closed-cycle renewable fuels and chemicals. Ruthenium dioxide is among the most active...
9.
Scott S, Sorensen J, Rao R, Moon C, Kibsgaard J, Shao-Horn Y, et al.
Energy Environ Sci
. 2022 Jun;
15(5):1988-2001.
PMID: 35706421
The operating conditions of low pH and high potential at the anodes of polymer electrolyte membrane electrolysers restrict the choice of catalysts for the oxygen evolution reaction (OER) to oxides...
10.
Bozal-Ginesta C, Rao R, Mesa C, Wang Y, Zhao Y, Hu G, et al.
J Am Chem Soc
. 2022 May;
144(19):8454-8459.
PMID: 35511107
Water oxidation is the step limiting the efficiency of electrocatalytic hydrogen production from water. Spectroelectrochemical analyses are employed to make a direct comparison of water oxidation reaction kinetics between a...