Mechanism for O-O Bond Formation via Radical Coupling of Metal and Ligand Based Radicals: A New Pathway

Pushkar Yulia; Pineda-Galvan Yuliana; Ravari Alireza K.; Otroshchenko Tatiana; Hartzler Daniel A.

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Mechanism for O-O Bond Formation via Radical Coupling of Metal and Ligand Based Radicals: A New Pathway

机译：金属和配体基自由基的自由基偶联形成O-O键的机理：新途径

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Artificial photosynthesis carries promise to deliver abundant clean energy for the needs of a growing population. Deep mechanistic understanding is required to achieve rational design of fast and durable water oxidation catalysts. Here we provided first evidence for a new mechanism of the O-O bond formation via radical coupling of the oxidized metal=oxo of radicaloid character (Ru-IV=O) and ligand based radical ([ligand-NO](+center dot) cation radical). O-O bond formation is facilitated via spin alignment and takes place via a virtually barrier less pathway inside the single metal complex. In situ reactive intermediate conversion was monitored by mass spectrometry, resonance Raman (RR) and EPR. Computational analysis have shown that the formation of [ligand-NO](+center dot) happens at a lower overpotential than the formation of the [Ru-v=O(ligand)](3+) intermediate. Overall, the presented paradigm for O-O bond formation opens new opportunities for rational catalyst design.

机译：人工光合作用有望为不断增长的人口提供丰富的清洁能源。需要深入的机械知识来实现快速耐用的水氧化催化剂的合理设计。在这里，我们提供了一种新的机制，以证明通过OO形成新的机理的机理是通过氧化的金属=自由基基团（Ru-IV = O）和配体基自由基（[配体-NO]（+中心点）阳离子基团）。 O-O键的形成可通过自旋对准来促进，并通过单个金属络合物内部几乎无障碍的途径进行。通过质谱，共振拉曼（RR）和EPR监测原位反应中间转化。计算分析表明，[配体-NO]（+中心点）的形成发生在比[Ru-v = O（配体）]（3+）中间体的形成低的超电势上。总体而言，提出的O-O键形成范例为合理的催化剂设计提供了新的机会。

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《Journal of the American Chemical Society》 |2018年第42期|13538-13541|共4页
作者
Pushkar Yulia; Pineda-Galvan Yuliana; Ravari Alireza K.; Otroshchenko Tatiana; Hartzler Daniel A.;
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Purdue Univ Dept Phys & Astron 525 Northwestern Ave W Lafayette IN 47907 USA;

Univ Rostock Leibniz Inst Catalysis Albert Einstein Str 29a D-18059 Rostock Germany;

Purdue Univ Dept Phys & Astron 525 Northwestern Ave W Lafayette IN 47907 USA|Natl Energy Technol Lab AECOM 626 Cochrans Mill Rd Pittsburgh PA 15236 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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机译：由阴离子，氧化还原 - 非无辜配体的单核钌基水氧化催化剂：通过自由基偶联通路的杂动机O-O键形成
2. O-O bond formation in ruthenium-catalyzed water oxidation: single-site nucleophilic attack vs. O-O radical coupling [J] . Shaffer David W., Xie Yan, Concepcion Javier J. Chemical Society Reviews . 2017,第20期

机译：钌催化水氧化中的O-O键形成：单点亲核攻击与O-O激进耦合
3. Intramolecular Oxyl Radical Coupling Promotes O-O Bond Formation in a Homogeneous Mononuclear Mn-based Water Oxidation Catalyst: A Computational Mechanistic Investigation [J] . Crandell Douglas W., Xu Song, Smith Jeremy M., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2017,第8期

机译：分子内氧基自由基偶联促进均匀单核MN水氧化催化剂中的O-O键形成：计算机制调查
4. Prediction and Optimization of Deformations in Coupling Mechanism Based Laser Forming of Sheet Metals [C] . Kuntal Maji International Conference on Recent Advances in Materials and Manufacturing Technologies . 2019

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7. Mononuclear Ruthenium-Based Water Oxidation Catalyst Supported by Anionic, Redox-Non-Innocent Ligand: Heterometallic OO Bond Formation via Radical Coupling Pathway [O] . -1

机译：由阴离子，氧化还原 - 非无辜配体的单核钌基水氧化催化剂：通过自由基偶联通路，杂核OO键形成

Mechanism for O-O Bond Formation via Radical Coupling of Metal and Ligand Based Radicals: A New Pathway

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