Journal ArticleDOI
Formal potentials and cyclic voltammetry of some ruthenium-ammine complexes
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This article is published in Inorganic Chemistry.The article was published on 1972-07-01. It has received 103 citations till now. The article focuses on the topics: Cyclic voltammetry & Ruthenium.read more
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Structure, chemical and photochemical reactivity and biological activity of some ruthenium amine nitrosyl complexes
TL;DR: In this article, the site of the reduction [Ru(NO)]3++e−→[Ru( NO)]2+ was assigned to the NO ligand based on molecular orbital (MO) analysis and on reduction product analysis.
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Water electrolysis: from textbook knowledge to the latest scientific strategies and industrial developments
Marian Chatenet,Bruno G. Pollet,Dario R. Dekel,Fabio Dionigi,Jonathan Deseure,Pierre Millet,Richard D. Braatz,Martin Z. Bazant,Michael Eikerling,Iain Staffell,Paul Balcombe,Yang Shao-Horn,Helmut Schäfer +12 more
TL;DR: In this paper , the authors present a review of the fundamentals of electrocatalytically initiated water splitting and the very latest scientific findings from university and institutional research, also covering specifications and special features of the current industrial processes and those processes currently being tested in large-scale applications.
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Nitric Oxide Binding to the Ferri- and Ferroheme States of Nitrophorin 1, a Reversible NO-Binding Heme Protein from the Saliva of the Blood-Sucking Insect, Rhodnius prolixus
X. D. Ding,Andrzej Weichsel,John F. Andersen,Tatjana Kh. Shokhireva,Celia A. Balfour,Antonio J. Pierik,B. A. Averill,William R. Montfort,F.A. Walker +8 more
TL;DR: It is found that NP1 readily binds NO in solution and in the crystalline state, but the protein is not readily autoreduced by excess NO, and dithionite is not a very effective reductant of NP1.
Journal ArticleDOI
Flash-induced H+ binding by bacterial photosynthetic reaction centers: Influences of the redox states of the acceptor quinones and primary donor
Péter Maróti,Colin A. Wraight +1 more
TL;DR: Maroti et al. as mentioned in this paper examined the flash-induced proton-binding behavior of reaction centers from Rhodobacter sphaeroides, over a wide range of pH, as a function of the one-electron redox states of the acceptor quinones (QAQ−A and QBQ−B) and the primary donor (P+P).
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