具有丰富氧空位的黑 TiO 上的 Pt 团簇的微波合成用于高效酸性析氢电催化。

Microwave Synthesis of Pt Clusters on Black TiO with Abundant Oxygen Vacancies for Efficient Acidic Electrocatalytic Hydrogen Evolution.

机构信息

Key Laboratory of Eco-chemical Engineering, Ministry of Education, International Science and Technology Cooperation Base of Eco-chemical Engineering and Green Manufacturing, College of Chemistry and Molecular Engineering, Qingdao University of Science & Technology, 53 Zhengzhou Road, Qingdao, 266042, P. R. China.

College of Chemical Engineering, Qingdao University of Science and Technology, Qingdao, 266042, China.

出版信息

Angew Chem Int Ed Engl. 2023 Mar 27;62(14):e202300406. doi: 10.1002/anie.202300406. Epub 2023 Feb 23.

DOI:10.1002/anie.202300406

PMID:36754865

Abstract

Oxygen vacancies-enriched black TiO is one promising support for enhancing hydrogen evolution reaction (HER). Herein, oxygen vacancies enriched black TiO supported sub-nanometer Pt clusters (Pt/TiO -O ) with metal support interactions is designed through solvent-free microwave and following low-temperature electroless approach for the first time. High-temperature and strong reductants are not required and then can avoid the aggregation of decorated Pt species. Experimental and theoretical calculation verify that the created oxygen vacancies and Pt clusters exhibit synergistic effects for optimizing the reaction kinetics. Based on it, Pt/TiO -O presents remarkable electrocatalytic performance with 18 mV to achieve 10 mA cm coupled with small Tafel slope of 12 mV dec . This work provides quick synthetic strategy for preparing black titanium dioxide based nanomaterials.

摘要

富氧空位的黑 TiO 是一种很有前途的支持物，可用于增强析氢反应 (HER)。在此，首次通过无溶剂微波和随后的低温化学镀方法设计了具有金属支撑相互作用的富氧空位黑 TiO 负载亚纳米 Pt 簇 (Pt/TiO -O )。不需要高温和强还原剂，从而可以避免修饰的 Pt 物种的聚集。实验和理论计算验证了所创建的氧空位和 Pt 簇表现出协同作用，可优化反应动力学。在此基础上，Pt/TiO -O 表现出优异的电催化性能，达到 10 mA cm 时仅需 18 mV 的过电势，并且具有 12 mV dec 的小 Tafel 斜率。这项工作为制备基于黑二氧化钛的纳米材料提供了快速的合成策略。

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具有丰富氧空位的黑 TiO 上的 Pt 团簇的微波合成用于高效酸性析氢电催化。

Microwave Synthesis of Pt Clusters on Black TiO with Abundant Oxygen Vacancies for Efficient Acidic Electrocatalytic Hydrogen Evolution.

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