Electron transfer. Part 165: Oxidations of Ti(II)(aq) with ligated iron(III) and ruthenium(III)

Mukherjee R; Manivannan V; Gould ES

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Electron transfer. Part 165: Oxidations of Ti(II)(aq) with ligated iron(III) and ruthenium(III)

机译：电子转移。第165部分：Ti（II）（aq）与连接的铁（III）和钌（III）的氧化

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Titanium(II) solutions, prepared by dissolving titanium wire in triflic acid + HF, contain equimolar quantities of Ti(IV). Treatment of such solutions with excess Fe(III) or Ru(III) complexes yield Ti(IV), but reactions with Ti(II) in excess give Ti(III). Oxidations by (NH3)(5)Ru(III) complexes, but not by Fe(III) species, are catalyzed by titanium(IV) and by fluoride. Stoichiometry is unchanged. The observed rate law for the Ru(III)-Ti(II)-Ti(IV) reactions in fluoride media points to competing reaction paths differing by a single F-, with both routes involving a Ti(II)-Ti(IV) complex which is activated by deprotonation. It is suggested that coordination of Ti(IV) to Ti-II(aq) minimizes the mismatch of Jahn-Teller distortions which would be expected to lower the Ti(II,III) self-exchange rate. (c) 2007 Elsevier B.V. All rights reserved.

机译：通过将钛丝溶解在三氟乙酸+ HF中制得的钛（II）溶液含有等摩尔量的Ti（IV）。用过量的Fe（III）或Ru（III）络合物处理此类溶液会生成Ti（IV），但与过量的Ti（II）反应会生成Ti（III）。钛（IV）和氟化物可催化（NH3）（5）Ru（III）络合物而非Fe（III）物种的氧化。化学计量不变。在氟化物介质中观察到的Ru（III）-Ti（II）-Ti（IV）反应的速率定律指出竞争反应路径之间存在单个F-差异，两种路径都涉及Ti（II）-Ti（IV）被去质子活化的复合物。建议将Ti（IV）与Ti-II（aq）配位可最大程度地减少Jahn-Teller畸变的失配，这有望降低Ti（II，III）的自交换率。（c）2007 Elsevier B.V.保留所有权利。

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《Inorganica Chimica Acta》 |2007年第11期|共4页
作者
Mukherjee R; Manivannan V; Gould ES;
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正文语种 eng
中图分类生物体其他化学成分;
关键词
electron transfer; iron complexes; ruthenium complexes; titanium(II); titanium(IV); REDUCTANTS; COMPLEXES; REDUCTION; MEDIATION;

机译：电子转移;铁配合物;钌配合物;钛（II）;钛（IV）;还原剂;络合物;还原;介导;

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1. Electron transfer. Part 165: Oxidations of Ti(II)(aq) with ligated iron(III) and ruthenium(III) [J] . Mukherjee R, Manivannan V, Gould ES Inorganica Chimica Acta . 2007,第11期

机译：电子转移。第165部分：Ti（II）（aq）与连接的铁（III）和钌（III）的氧化
2. Synthesis, X-ray crystallographic characterization, and electronic structure studies of a di-azide iron(III) complex: Implications for the azide adducts of iron(III) superoxide dismutase [J] . Grove LE, Hallman JK, Emerson JP, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2008,第13期

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3. Kinetics and mechanism of electrontransfer reactions in acetate buffers:Ruthenium(III) chloride catalysed oxidation of nitrite by thallium(III) acetate [J] . Namita Vijay, Indu Sharma, Menka Bhasin, Indian Journal of Chemistry, Section A. Inorganic, Physical, Theoretical & Analytical . 2001,第7期

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4. Kinetic modelling of microbial iron (II) oxidation, iron (III) hydrolysis, and arsenic (III) oxidation in acid waters [C] . K.M. Campbell, D.K. Nordstrom, M.B. Hay International Congress Arsenic In The Environment . 2012

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7. Electronic and Structural Comparisons between Iron(II/III) and Ruthenium(II/III) Imide Analogs [O] . -1

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8. Iron (III) Initiated Autoxidation of 1,2,3,4- Tetrahydrocarbazole: An Example of Electron Transfer. [R] . Beaver, B. 1989

机译：铁（III）引发1,2,3,4-四氢咔唑的自氧化：电子转移的实例。

Electron transfer. Part 165: Oxidations of Ti(II)(aq) with ligated iron(III) and ruthenium(III)

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