Graph Neural Network Driven Exploration of Non-Precious Metal Catalysts for Air-to-Ammonia Conversion.

Journal: Advanced materials (Deerfield Beach, Fla.)
Published Date: Aug 1, 2025

Abstract

Efficient ammonia production directly from the air with minimal energy consumption remains one of the most challenging and ambitious scientific goals. NHOH has proven to be a promising stable intermediate in producing NH, with the direct generation of NH from air achieved by coupling a continuous flow plasma reactor with an electrolyzer. However, the requirement of noble metal-doped Cu alloys as the cathode catalyst limits the scalability and cost-effectiveness of the coupled plasma-electrochemical system. In this work, graph neural networks, density functional theory calculations, and microkinetic modeling are combined to exhaustively explore the catalytic properties of all experimentally accessible alloy phases for NH production, ultimately identifying the non-noble CuMnSb system as highly active for the conversion of air to NH. The experiments confirm an ammonia production rate of 28.47 mg h cm in a coupled plasma-electrolyser system. Such a finding confirms the future of machine learning and microkinetic theory in guiding the experimental exploration that transcends the constraints of conventional methods.

Authors

  • Chengyi Zhang
    School of Chemical Sciences, University of Auckland, SCIENCE CENTRE 302 - Bldg 302, 23 SYMONDS ST, AUCKLAND CENTRAL, AUCKLAND, 1010, New Zealand, Auckland, 1010, New Zealand.
  • Xiaoli Ge
    Department of Chemistry, University at Buffalo, State University of New York, New York, 14260, USA.
  • Zihao Jiao
    School of Chemical Sciences, University of Auckland, SCIENCE CENTRE 302 - Bldg 302, 23 SYMONDS ST, AUCKLAND CENTRAL, AUCKLAND, 1010, New Zealand, Auckland, 1010, New Zealand.
  • Mengyao Chang
    School of Chemical Sciences, University of Auckland, SCIENCE CENTRE 302 - Bldg 302, 23 SYMONDS ST, AUCKLAND CENTRAL, AUCKLAND, 1010, New Zealand, Auckland, 1010, New Zealand.
  • Chuang Zhao
    Department of Physics, Faculty of Arts and Sciences, Beijing Normal University, Zhuhai, 519085, China.
  • Qingsong Hua
    Department of Physics, Faculty of Arts and Sciences, Beijing Normal University, Zhuhai, 519085, China.
  • Zhaoqiang Li
    Department of Physics, Faculty of Arts and Sciences, Beijing Normal University, Zhuhai, 519085, China.
  • Geoffrey I N Waterhouse
    College of Chemistry and Material Science, Shandong Agricultural University, 271018 Taian, Shandong, People's Republic of China; School of Chemical Sciences, The University of Auckland, Auckland 1142, New Zealand.
  • Yuguang C Li
    Department of Chemistry, University at Buffalo, State University of New York, New York, 14260, USA.
  • Ziyun Wang
    Department of Urology, Fudan University Shanghai Cancer Center, Shanghai, China.

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