I. Basic Information

 Project Subject: Institute of High Energy Physics, Chinese Academy of Sciences

 Beijing Huairou Science City Construction and Development Co, Ltd.

 Category: First batch of cross-research platforms

 Location: Central Area of Huairou Science City

 Area: 54 mu

 Building area: 40000 m2

 Total investment: 549.55 million yuan

　　Subject orientation: Material science

Real-life View of Materials Genome Research Platform

 II. Main Contents

 Project introduction: This project proposes to build an internationally advanced, ultra-large-scale materials genome research platform with comprehensive capabilities.

The platform is designed to facilitate the discovery of new high-temperature superconductors, advanced quantum materials, high-performance amorphous alloys and rare earth magnetic materials, while also reducing the time required for process optimisation. Additionally, the platform is intended to accelerate the advancement of basic and applied research in the field of material science, enabling the attainment of world-class results in areas such as high-temperature superconducting mechanisms, topological physics and novel quantum phenomena.

Once the platform is complete, we will make significant progress in the research and development of several key materials. In particular, we will discover and synthesise completely new topological materials, high-temperature superconducting materials, high-performance amorphous alloys, as well as optimise and reduce the cost of rare earth magnetic materials in terms of advanced quantum materials. This will drive the emergence of new industries and the transformation of the domestic industrial structure.

The Materials Genome Research Platform has three sub-platforms: the Materials Calculation and Data Processing Sub-Platform, the High-Throughput Materials Preparation and Rapid Detection Sub-Platform, and the High-Throughput Technology Support and R&D Sub-Platform.