Effects of aqueous buffers on electrocatalytic water oxidation with an iridium oxide material electrodeposited in thin layers from an organometallic precursor

Kushner-Lenhoff M.N.; Blakemore J.D.; Schley N.D.; Crabtree R.H.; Brudvig G.W.

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Effects of aqueous buffers on electrocatalytic water oxidation with an iridium oxide material electrodeposited in thin layers from an organometallic precursor

机译：水性缓冲液对有机金属前体薄层中电沉积的氧化铱材料的电催化水氧化的影响

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A thin layer of an amorphous, mixed-valence iridium oxide (electrodeposited from an organometallic precursor, [Cp*Ir(H_2O) _3]~(2+)) is a heterogeneous catalyst among the most active and stable currently available for electrochemical water oxidation. We show that buffers can improve the oxygen-evolution activity of such thin-layer catalysts near neutral pH, but that buffer identity and concentration, as well as the solution pH, remain key determinants of long-term electrocatalyst activity and stability; for example, phosphate buffer can reduce the overpotential by up to 173 mV.

机译：非晶态，混合价的氧化铱薄层（从有机金属前体中电沉积[Cp * Ir（H_2O）_3]〜（2+））是目前用于电化学水氧化的活性最高，最稳定的非均相催化剂。我们表明，缓冲剂可以在中性pH值附近改善此类薄层催化剂的氧释放活性，但缓冲剂的特性和浓度以及溶液的pH值仍是长期电催化剂活性和稳定性的关键决定因素;例如，磷酸盐缓冲液最多可将过电位降低173 mV。

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《Dalton transactions: An international journal of inorganic chemistry》 |2013年第10期|共6页
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Kushner-Lenhoff M.N.; Blakemore J.D.; Schley N.D.; Crabtree R.H.; Brudvig G.W.;
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1. Effects of aqueous buffers on electrocatalytic water oxidation with an iridium oxide material electrodeposited in thin layers from an organometallic precursor [J] . Kushner-Lenhoff M.N., Blakemore J.D., Schley N.D., Dalton transactions: An international journal of inorganic chemistry . 2013,第10期

机译：水性缓冲液对有机金属前体薄层中电沉积的氧化铱材料的电催化水氧化的影响
2. Organometallic precursor route for the fabrication of PtSn bimetallic nanotubes and Pt3Sn/reduced-graphene oxide nanohybrid thin films at oilewater interface and study of their electrocatalytic activity in methanol oxidation [J] . S. Jafar Hoseini, Zahra Barzegar, Mehrangiz Bahrami, Journal of Organometallic Chemistry . 2014,第Null期

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3. An ultrathin nickel-based film electrodeposited from a Ni-Tris molecular precursor for highly efficient electrocatalytic water oxidation [J] . Chen Hu, Gao Yan, Ye Lu, Electrochimica Acta . 2018,第Pta1期

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Effects of aqueous buffers on electrocatalytic water oxidation with an iridium oxide material electrodeposited in thin layers from an organometallic precursor

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