Dramatic Increase in the Oxygen Reduction Reaction for Platinum Cathodes from Tuning the Solvent Dielectric Constant

Alessandro Fortunelli; William A. Goddard; Yao Sha

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Dramatic Increase in the Oxygen Reduction Reaction for Platinum Cathodes from Tuning the Solvent Dielectric Constant

机译：通过调节溶剂介电常数可大大提高铂金阴极的氧还原反应

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Hydrogen fuel cells (FC) are considered essential for a sustainable economy based on carbon-free energy sources, but a major impediment are the costs. First-principles quantum mechanics (density functional theory including solvation) is used to predict how the energies and barriers for the mechanistic steps of the oxygen reduction reaction (ORR) over the fcc(lll) platinum surface depend on the dielectric constant of the solvent. The ORR kinetics can be strongly accelerated by decreasing the effective medium polarizability from the high value it has in water. Possible ways to realize this experimentally are suggested. The calculated volcano structure for the dependence of rate on solvent polarization is considered to be general, and should be observed in other electrochemical systems.

机译：氢燃料电池（FC）被认为是基于无碳能源的可持续经济所必不可少的，但主要障碍是成本。第一原理量子力学（包括溶剂化的密度泛函理论）用于预测fcc（III）铂表面上的氧还原反应（ORR）机理步骤的能量和势垒如何取决于溶剂的介电常数。通过降低水中的有效介质极化率，可以大大提高ORR动力学。建议通过实验实现这一目标的可能方法。计算出的取决于速率与溶剂极化的关系的火山结构被认为是一般性的，应在其他电化学系统中观察到。

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《Angewandte Chemie》 |2014年第26期|共4页
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Alessandro Fortunelli; William A. Goddard; Yao Sha;
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1. Dramatic Increase in the Oxygen Reduction Reaction for Platinum Cathodes from Tuning the Solvent Dielectric Constant [J] . Alessandro Fortunelli, William A. Goddard, Yao Sha Angewandte Chemie . 2014,第26期

机译：通过调节溶剂介电常数可大大提高铂金阴极的氧还原反应
2. Direct observation of the dealloying process of a platinum-yttrium nanoparticle fuel cell cathode and its oxygenated species during the oxygen reduction reaction [J] . Malacrida Paolo, Casalongue Hernan G. Sanchez, Masini Federico, Physical chemistry chemical physics: PCCP . 2015,第42期

机译：在氧还原反应过程中直接观察铂-钇纳米颗粒燃料电池阴极及其氧化物种的脱合金过程
3. Atomistic Explanation of the Dramatically Improved Oxygen Reduction Reaction of Jagged Platinum Nanowires, 50 Times Better than Pt [J] . Yalu Chen, Tao Cheng, William A. Goddard Ⅲ Journal of the American Chemical Society . 2020,第19期

机译：锯齿状铂纳米线的显着改善的氧还原反应的原子原始解释，比PT好50倍
4. Catalytic activity of zirconium based cathode without platinum for oxygen reduction reaction [C] . Y. Ohgi, A. Ishihara, K. Matsuzawa, Polymer electrolyte fuel cell symposium;PEFC 10;Electrochemical Society meeting . 2011

机译：不含铂的锆基阴极对氧还原反应的催化活性
5. In situ XAFS studies of the oxygen reduction reaction on carbon supported platinum and platinum nickel nano-scale alloys as cathode catalysts in fuel cells [D] . Jia, Qingying. 2010

机译：原位XAFS对碳负载铂和铂镍纳米级合金的氧还原反应作为燃料电池中的阴极催化剂
6. General Solvent-dependent Strategy toward Enhanced Oxygen Reduction Reaction in Graphene/Metal Oxide Nanohybrids: Effects of Nitrogen-containing Solvent [O] . Wei-Yao Kao, Wei-Quan Chen, Yu-Hsiang Chiu, -1

机译：石墨烯/金属氧化物纳米杂化物中增强氧还原反应的一般溶剂依赖性策略：含氮溶剂的影响
7. Dramatic Increase in the Oxygen Reduction Reaction for Platinum Cathodes from Tuning the Solvent Dielectric Constant [O] . Alessandro Fortunelli, William A. Goddard, Yao Sha, 2014

机译：通过调节溶剂介电常数可大大提高铂金阴极的氧还原反应
8. Solvent Donicity and Dielectric Continuum Effects in Amalgam Formation Reactions.A Study of the Reduction of Cu(I) in the Nitrile Solvents [R] . Fawcett, W. R., Foss, C. A. 1991

机译：汞齐形成反应中的溶剂介质和介电连续效应。腈溶剂中Cu（I）还原的研究

Dramatic Increase in the Oxygen Reduction Reaction for Platinum Cathodes from Tuning the Solvent Dielectric Constant

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