Advanced Energy and Environmental Materials

The world is faced with challenges in sustainable develop ment. Achieving long-term economic and social development requires new technologies to deliver on efficient energy utilization and environmental protection. Our team endeavors to design advanced materials and devices to address energy and environmental challenges, especially in the fields of important petrochemical reactions, catalytic conversion of biomass, solar/electrochemical energy conversion and storage, waste water treatment, carbon capture and conversion, and exhaust gas treatment...

High Pressure Science and Technology

Specific areas that our research mainly focus on CALYPSO methods on structural prediction at high pressure conditions in an effort to explore new theories and rules, the development of ultrahigh-pressure experiment technique for attaining ten million atmospheric hydrostatic pressure to explore the holy grails of high-pressure physics, e.g., metallization of hydrogen,the theoretical design and experimental synthesis of new high-pressure materials with novel functional properties,structural search and experimental preparation for the materials within the earth interior

Millimeter Microwave Technology and Applications

As the consequences of climate change and ozone hole become more visible, an increasing number of people have come to realize the urgency to study dynamics of atmosphere. Millimeter microwave technology is the only technology that can study the dynamics of Mesosphere. We plan to develop the new generation of mm microwave devices, establish monitoring stations that can simultaneously observe CO and O3 at both Antarctica and Arctic and build up a united global O3 monitoring network

Advanced Metallic Materials

In order to solve the problems of high cost, low dosage and poor formability of Titanium and Titanium alloys, the advanced metallic materials research team adopts the powder metallurgy preparation technology and devotes themselves to the research of Titanium and Titanium alloys in the fields of aerospace, automobile and biomedicine. Our research directions include the preparation of low-cost, high-performance Titanium and Titanium alloys by powder metallurgy; the preparation of high-performance Titanium alloy...

Read more

Translational Immunology

The Translational Immunology Team is committed to deeply investigate the role of immune system in controlling or facilitating the progress of immune relevant diseases, and develop novel immunological intervention strategies to treat the diseases

Artificial Intelligence

Artificial intelligence has become a technological innovation hotspot, and is expected to applied to various fields. Our team aims at enhancing our capacity for scientific and technological innovation based on the basic theory and key common technologies of artificial intelligence. We mainly focus on the knowledge engineering, including big data intelligence, computational knowledge engine and knowledge services. We also develop the theory, new architecture and new technologies of hybrid-augmented intelligence, which closely couples the advanced cognitive mechanism...

New Concept Materials

Focus on the research and development of new materials such as metamaterial and meta-surfaces, MXene, and semiconductors, and committed to their applications in new energy, flexible wearable devices, and other aspects, including the development of electrode materials for alkali metal batteries, aluminum ion batteries, and magnesium ion batteries; By utilizing the interaction between MXene materials and organic compounds, flexible sensor devices and their applications in the field of wearable medical devices were studied; Design, synthesis and application of new semiconductor materials; Research on the characteristics of fully dielectric planar structures (meta-surfaces) and design new nanophotonic devices

Read more

Strategic Advanced Electronic Materials

Our team endeavors to design strategic & advanced electronic materials for future electronics, optoelectronics, and sensor devices & chips, especially in the fields of advanced sensing & detection materials, wide band gap & ultra-wide band gap semiconductor materials, advanced photonic & photoelectronic materials, low-dimensional & nano-sized electronic materials, advanced sensing/photoelectronic/electronic devices & chips, as well as advanced electronic materials calculation & design, etc....

Low-carbon-clean Energy Enrichment and Carbon Dioxide Storage

The team focus on low-carbon-clean energy enrichment and carbon dioxide storage, with the aim of establishing the formation theory of natural gas and geothermal energy, and developing their exploration methods and technologiesIt mainly includes natural gas exploration and prediction from deep-water area and deep strata, geothermal resource exploration and evaluation. It can provide theoretical and technical support for discovering low-carbon-clean energy, thus serving national energy security and "dual carbon" goals....

Read more