AI-Driven Discovery and Molecular Engineering Design for Enhancing Interface Stability of Black Phosphorus.

Journal: Angewandte Chemie (International ed. in English)
Published Date: Aug 8, 2025

Abstract

Molecular engineering offers significant potential for developing advanced interfacial materials, yet the complexity of organic molecules poses challenges in discovering optimal structures. This study leveraged large language model (LLM) and machine learning (ML) to accelerate molecular discovery and guide molecular engineering for enhancing the stability of black phosphorus (BP), a promising 2D semiconductor but rapidly degrades when exposed to oxygen and moisture. By utilizing GPT-4o, molecular groups such as ─SiR, ─PR, ─SH, and ═NH that interact effectively with BP were identified and a high-throughput workflow employing graph neural networks (GNNs) models was developed to successfully predict and screen 662 promising candidates from over 117 million molecules. These candidates were validated by density functional theory (DFT) simulations and experiments, with synthesis protocols guided by GPT-4o, achieving great interfacial stabilization of BP for up to 24 days under ambient conditions. Furthermore, a new synergistic molecular engineering strategy was proposed by incorporating functional head, linker, and tail groups of molecules to even enable the use of hydrophilic molecules to stabilize BP surface, overcoming traditional design limitations. This work highlights the AI technologies not only in optimizing BP interfacial stability but also in broader aspects of molecular engineering for various materials.

Authors

  • Chao Peng
    Bioengineering College of Chongqing University, Chongqing University Central Hospital (Chongqing Emergency Medical Center), Chongqing, China.
  • Bing Wang
    Computer Science & Engineering Department at the University of Connecticut.
  • Lie Wu
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Haoqu Jin
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Yutang Li
    School of Biomedical Engineering, Capital Medical University, Beijing, China.
  • Wenxia Gao
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Jie Zhou
    Departments of Ultrasound, Jiading District Central Hospital Affiliated Shanghai University of Medicine &Health Sciences, Shanghai, China.
  • Guolai Jiang
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Chen Wang
    Department of Cardiovascular Surgery, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, Hubei, China.
  • Jiahong Wang
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Xingchen He
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.
  • Denis Kramer
    Engineering Sciences, University of Southampton, SO17 1BJ Southampton, UK; Helmut-Schmidt-University, University of the Armed Forces, 22043 Hamburg, Germany.
  • Paul K Chu
    Department of Physics, Department of Materials Science and Engineering, and Department of Biomedical Engineering, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong, 999077, P.R. China.
  • Xue-Feng Yu
    Materials Artificial Intelligence Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen, 518055, P.R. China.

Keywords

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