Xiao-Qi Han Ze-Feng Gao Xin-De Wang Zhenfeng Ouyang Peng-Jie Guo Zhong-Yi Lu

Abstract

The discovery of high-temperature superconducting materials holds great significance for human industry and daily life. In recent years, research on predicting superconducting transition temperatures using artificial intelligence~(AI) has gained popularity, with most of these tools claiming to achieve remarkable accuracy. However, the lack of widely accepted benchmark datasets in this field has severely hindered fair comparisons between different AI algorithms and impeded further advancement of these methods. In this work, we present the HTSC-2025, an ambient-pressure high-temperature superconducting benchmark dataset. This comprehensive compilation encompasses theoretically predicted superconducting materials discovered by theoretical physicists from 2023 to 2025 based on BCS superconductivity theory, including the renowned XYH system, perovskite MXH system, MXH system, cage-like BCN-doped metal atomic systems derived from LaH structural evolution, and two-dimensional honeycomb-structured systems evolving from MgB. The HTSC-2025 benchmark has been open-sourced at this https URL and will be continuously updated. This benchmark holds significant importance for accelerating the discovery of superconducting materials using AI-based methods.