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Morphology and surface chemistry engineering toward pH-universal catalysts for hydrogen evolution at high current density

Yuting Luo, Lei Tang, Usman Khan, Qiangmin Yu, Hui-Ming Cheng, Xiaolong Zou () and Bilu Liu ()
Additional contact information
Yuting Luo: Tsinghua University
Lei Tang: Tsinghua University
Usman Khan: Tsinghua University
Qiangmin Yu: Tsinghua University
Hui-Ming Cheng: Tsinghua University
Xiaolong Zou: Tsinghua University
Bilu Liu: Tsinghua University

Nature Communications, 2019, vol. 10, issue 1, 1-9

Abstract: Abstract Large-scale implementation of electrochemical hydrogen production requires several fundamental issues to be solved, including understanding the mechanism and developing inexpensive electrocatalysts that work well at high current densities. Here we address these challenges by exploring the roles of morphology and surface chemistry, and develop inexpensive and efficient electrocatalysts for hydrogen evolution. Three model electrocatalysts are flat platinum foil, molybdenum disulfide microspheres, and molybdenum disulfide microspheres modified by molybdenum carbide nanoparticles. The last catalyst is highly active for hydrogen evolution independent of pH, with low overpotentials of 227 mV in acidic medium and 220 mV in alkaline medium at a high current density of 1000 mA cm−2, because of enhanced transfer of mass (reactants and hydrogen bubbles) and fast reaction kinetics due to surface oxygen groups formed on molybdenum carbide during hydrogen evolution. Our work may guide rational design of electrocatalysts that work well at high current densities.

Date: 2019
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Citations: View citations in EconPapers (12)

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DOI: 10.1038/s41467-018-07792-9

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