Amorphizing noble metal chalcogenide catalysts at the single-layer limit towards hydrogen production

被引：0

作者：

Yongmin He

Liren Liu

Chao Zhu

Shasha Guo

Prafful Golani

Bonhyeong Koo

Pengyi Tang

Zhiqiang Zhao

Manzhang Xu

Chao Zhu

Peng Yu

Xin Zhou

Caitian Gao

Xuewen Wang

Zude Shi

Lu Zheng

Jiefu Yang

Byungha Shin

Jordi Arbiol

Huigao Duan

Yonghua Du

Marc Heggen

Rafal E. Dunin-Borkowski

Wanlin Guo

Qi Jie Wang

Zhuhua Zhang

Zheng Liu

机构：

[1] Hunan University,State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Chemistry and Chemical Engineering

[2] Nanyang Technological University,School of Materials Science and Engineering

[3] Nanyang Technological University,Center for Opto

[4] Nanjing Tech University,Electronics and Biophotonics, School of Electrical and Electronic Engineering & The Photonics Institute

[5] Nanjing University of Aeronautics and Astronautics,Department of Physics, School of Physical and Mathematical Sciences

[6] Southeast University,State Key Laboratory of Mechanics and Control of Mechanical Structures, Key Laboratory for Intelligent Nano Materials and Devices of Ministry of Education, and Institute for Frontier Science

[7] Korea Advanced Institute of Science and Technology,SEU

[8] Catalan Institute of Nanoscience and Nanotechnology (ICN2),FEI Nano

[9] Spanish National Research Council (CSIC),Pico Center, Key Lab of MEMS of Ministry of Education, School of Electronic Science and Engineering

[10] Barcelona Institute of Science and Technology (BIST),Deparment of Materials Science and Engineering

[11] Northwestern Polytechnical University,Institute of Flexible Electronics (IFE)

[12] Sun Yat-sen University,State Key Laboratory of Optoelectronic Materials and Technologies, School of Materials Science and Engineering

[13] National University of Singapore,NUS Graduate School

[14] Hunan University,School of Physics and Electronics

[15] Institució Catalana de Recerca i Estudis Avançats (ICREA),College of Mechanical and Vehicle Engineering

[16] Hunan University,Institute of Chemical and Engineering Sciences

[17] Agency for Science,National Synchrotron Light Source II

[18] Technology and Research,Ernst Ruska

[19] Brookhaven National Laboratory,Centre for Microscopy and Spectroscopy with Electrons, Peter Grünberg Institute

[20] Forschungszentrum Jülich,Environmental Chemistry and Materials Centre, Nanyang Environment and Water Research Institute

[21] CNRS-International-NTU-Thales Research Alliance (CINTRA),undefined

[22] Nanyang Technological University,undefined

来源：

Nature Catalysis | 2022年 / 5卷

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摘要：

Rational design of noble metal catalysts with the potential to leverage efficiency is vital for industrial applications. Such an ultimate atom-utilization efficiency can be achieved when all noble metal atoms exclusively contribute to catalysis. Here, we demonstrate the fabrication of a wafer-size amorphous PtSex film on a SiO2 substate via a low-temperature amorphization strategy, which offers single-atom-layer Pt catalysts with high atom-utilization efficiency (~26 wt%). This amorphous PtSex (1.2 < x < 1.3) behaves as a fully activated surface, accessible to catalytic reactions, and features a nearly 100% current density relative to a pure Pt surface and reliable production of sustained high-flux hydrogen over a 2 inch wafer as a proof-of-concept. Furthermore, an electrolyser is demonstrated to generate a high current density of 1,000 mA cm−2. Such an amorphization strategy is potentially extendable to other noble metals, including the Pd, Ir, Os, Rh and Ru elements, demonstrating the universality of single-atom-layer catalysts.

引用

页码：212 / 221

页数：9

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