Interdisciplinary Program Aligned with National Dual Carbon Strategy

Program Under the University's Cultivating Model of“the Integration of Bachelor's, Master's and Doctoral Degrees”

Cultivation Characteristics

Rooted in the discipline of Materials Science and Engineering, this major is closely aligned with China's "dual carbon" goals and Beijing strategic layout for the new energy sector. It emphasizes the research and development of energy conversion and storage materials as well as breakthroughs in device integration technologies, aiming to drive the development of strategic emerging industries such as new energy, new materials, energy conservation and environmental protection, and high-end equipment manufacturing. The major's strengths and core features are as follows:‌

1. Interdisciplinary Innovation: Integrating materials engineering, energy science, and environmental technology to build a full-spectrum innovation chain - from fundamental research to application and industrialization;

2. Capability Development: Emphasizing expertise in materials design, device fabrication, and system optimization to cultivate interdisciplinary scientific and technological talent for the new energy sector.

3. Green Development: Embracing a low-carbon philosophy throughout the full academic and industrial lifecycle

The major cultivates innovative, globally competitive talent to support industries such as new energy materials, energy storage technologies, and green manufacturing—empowering sustainable and high-quality development across related sectors.

Academic Staff

Teaching Resources

The major is supported by specialized teaching and research facilities, including a hydrogen purification industry-education integration base, hydrogen fuel cell training platforms, and zero-carbon technology centers tailored to urban infrastructure industries. Undergraduate teaching is backed by over 2,000 square meters of laboratory space and more than 100 sets of experimental equipment with a total asset value exceeding RMB 23.87 million. These resources fully meet the practical training needs of students A joint off-campus talent training mechanism has been established with more than ten leading industry partners, including BBMG Group and SPIC Hydrogen Energy Group, providing annual internship opportunities for 30 to 50 undergraduates, to enhance their overall practical capabilities.

Core Curriculum

Introduction to Materials Science and Engineering,Fundamentals of Materials Science (Bilingual), Fundamentals of Materials Engineering, Materials Properties, Materials Characterization Techniques, Fundamentals of Environmental Materials, Innovative Design Methods in Materials, Practical Training in Materials Innovation Design, Comprehensive Materials Laboratory, Course Design of Materials Processing Equipment, etc.