Materials Generation in the Era of Artificial Intelligence: A Comprehensive Survey

Materials are the foundation of modern society, underpinning advancements in energy, electronics, healthcare, transportation, and infrastructure. The ability to discover and design new materials with tailored properties is critical to solving some of the most pressing global challenges. In recent years, the growing availability of high-quality materials data combined with rapid advances in Artificial Intelligence (AI) has opened new opportunities for accelerating materials discovery. Data-driven generative models provide a powerful tool for materials design by directly create novel materials that satisfy predefined property requirements. Despite the proliferation of related work, there remains a notable lack of up-to-date and systematic surveys in this area. To fill this gap, this paper provides a comprehensive overview of recent progress in AI-driven materials generation. We first organize various types of materials and illustrate multiple representations of crystalline materials. We then provide a detailed summary and taxonomy of current AI-driven materials generation approaches. Furthermore, we discuss the common evaluation metrics and summarize open-source codes and benchmark datasets. Finally, we conclude with potential future directions and challenges in this fast-growing field. The related sources can be found atthis https URL.

@article{li2025_2505.16379,
  title={ Materials Generation in the Era of Artificial Intelligence: A Comprehensive Survey },
  author={ Zhixun Li and Bin Cao and Rui Jiao and Liang Wang and Ding Wang and Yang Liu and Dingshuo Chen and Jia Li and Qiang Liu and Yu Rong and Liang Wang and Tong-yi Zhang and Jeffrey Xu Yu },
  journal={arXiv preprint arXiv:2505.16379},
  year={ 2025 }
}