Affiliation:
1. State Key Laboratory of Advanced Electromagnetic Technology, School of Electrical and Electronic Engineering Huazhong University of Science and Technology Wuhan China
2. Wuhan National High Magnetic Field Center Wuhan China
3. School of Computer Science Leeds Trinity University Leeds UK
Abstract
AbstractReleased in March 2023, GPT‐4 has shown remarkable proficiency in various scientific areas, including atmospheric pressure plasma research. The paper discusses how GPT‐4, supported by ScholarAI and Wolfram plugins, enhances research efficiency with its vast knowledge and inferencing skills. It focuses on plasma‐water‐based nitrogen fixation experiments, demonstrating GPT‐4's abilities in explanation, analysis, prediction, planning, and verification. The study also addresses challenges like interpreting non‐textual data and keeping pace with scientific advancements. It highlights GPT‐4's role in improving nitrogen fixation process efficiency, showcasing its utility in scientific analysis and decision‐making. The paper emphasizes the evolving role of AI in research and the need for the scientific community to adapt to the rise of more advanced AI systems.