Our institute primarily focuses on the development and industrialization of electrocatalytic materials for hydrogen production from new and renewable energy sources, with related research areas including:

R&D of carbon emission reduction, carbon conversion, carbon capture, and carbon sequestration technologies;

R&D of emerging energy technologies;

Promotion of new material technologies;

R&D of environmental governance technologies and materials;

R&D of biomedical materials;

R&D of thermal interface materials.

R&D of carbon emission reduction, carbon conversion, carbon capture, and carbon sequestration technologies：We are committed to the R&D of related technologies to reduce emissions of greenhouse gases such as carbon dioxide. Through capture, conversion, and sequestration, we aim to achieve effective carbon management and utilization, providing technical support for addressing climate change.

R&D of emerging energy technologies：This field involves the R&D of new energy technologies including solar, wind, and hydrogen energy. It covers improving the conversion efficiency of photovoltaic cells, developing high-efficiency solar thermal power generation technologies, exploring advanced hydrogen production methods, optimizing energy structures, and promoting green development.

Promotion of new material technologies：Focusing on the R&D and application of new material technologies, this area includes new energy materials and their related devices. Research covers material composition, structure, and performance, along with analysis of material applicability, to advance the commercialization and industrialization of new material technologies.

R&D of environmental governance technologies and materials：We develop functional materials for water, air, and solid waste pollution control, such as nanomaterials for efficient heavy metal adsorption, catalytic materials for organic pollutant degradation, and biochar materials for soil remediation, aiming to solve key environmental governance challenges.

R&D of biomedical materials：We develop biomedical materials with excellent biocompatibility, including degradable orthopedic repair materials and targeted drug carrier materials. Simultaneously, we study in vivo degradation mechanisms and biosafety of these materials to drive advancements in medical technology.

R&D of thermal interface materials：Based on nanomaterial preparation technology and diamond coating technology, this research focuses on solving heat dissipation challenges in products such as smartphones, 5G base stations, AI chips, consumer electronics, and new energy vehicles.