Dean of College of Chemistry and Molecular Engineering
The College of Chemistry and Molecular Engineering (CCME) at Peking University is a world-leading research institution. Our history dates back to the Chemistry Division of the Imperial University of Peking, founded in 1910. As the oldest Department of Chemistry in China, CCME has played a pivotal role in shaping the national and international landscape of Chemical Education and Fundamental Research.
Today, CCME is a hub of academic excellence and innovation. It proudly hosts two State Key Laboratories and two Ministry of Education Key Laboratories. In 2003, CCME, in collaboration with the Institute of Chemistry, Chinese Academy of Sciences, established the Beijing National Laboratory for Molecular Sciences, further cementing its status as a global leader in Chemical Sciences.
Our faculty is a testament to our commitment to excellence, with 209 members, including 10 Academicians of the Chinese Academy of Sciences. The college is funded primary by the National Science Foundation of China, and numerous faculty members have been recognised with prestigious national awards such as the National Science Fund for Distinguished Young Scholars.
CCME's educational programmes are designed to provide a comprehensive and rigorous foundation in chemistry. Our undergraduate program offers a Bachelor of Science degree with tracks in chemistry, materials chemistry, applied chemistry, and chemical biology. Students benefit from cutting-edge laboratory facilities, spanning over 4800 square meters, equipped with state-of-the-art instruments. These resources ensure that students receive unparalleled experimental training, fostering critical thinking and innovation.
Research at CCME is organised into five core fields: Core Chemistry, Materials Chemistry, Chemical Biology, AI Chemistry and Chemical Engineering. The college is at the forefront of interdisciplinary research, forming collaborative teams that bridge basic sciences, applied sciences, engineering, and medicine. Our research initiatives attract significant external funding annually, contributing to a prolific output of ca. 600 high profile publications each year.
CCME is deeply committed to global collaboration, maintaining extensive exchange programmes with international academics and educational organizations. Our alumni network is a testament to our impact, with over 16,000 graduates who have become leaders in academia, industry, and government worldwide. Notable alumni include members of the U.S. National Academy of Sciences, directors of national scientific foundations, and university presidents.
Looking into the future, CCME is dedicated to fostering a dynamic and inclusive environment that inspires the next generation of scientists. Our mission is to address the world's most pressing challenges through groundbreaking research and education, solidifying our position as a globally influential institution in chemical sciences.
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PNAS | Prof. Wen-Bin Zhang and Coworkers Reported the Design and Synthesis of Single-Domain Protein Topological IsoformsNov 19 , 2024Topology concerns the connectivity and spatial relationship of a molecule, and is an importan...
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Cell | Prof. Peng R. Chen and Collaborators Reported A New Immunotherapy Modality Targeting Solid Tumor Immune MicroenvironmentNov 12 , 2024Although immunotherapy has revolutionized cancer treatment, its efficacy is affected by multi...
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Peking University researchers have made a breakthrough in the treatment of liver diseaseOct 30 , 2024Peking University, October 29, 2024: Addressing the challenge of cholestatic itch, the scie...
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The Teams Led by Prof. Chu Wang Publish Work on “In situ chemoproteomic profiling reveals itaconate inhibits de novo purine biosynthesis in pathogens” in Cell ReportsSep 26 , 2024Itaconate can covalently modify cysteine residues on proteins to form S-itaconation. Increasi...
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Sep19【XingDa669】Sequence-based design of small molecules targeting RNA structure
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Sep19【XingDa668】From novel antimalarials to next generation Antibody-Drug Conjugate payloads
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Sep15【OPSS】Heterocyclizations and Cross-Couplings Enabled by Stereocontrolled Alkene Functionalization
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Sep12【XingDa666】Reticular Chemistry, Climate, AI
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Sep12【XingDa667】Modern Solid-State Chemistry:Complex Anions and Chemical Bonding
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Sep12【Inorganic chemistry Forum】Why do we need a single-molecule qubit?
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Sep12【Soft Matter Lecture151】Dynamic Networks as a Route toAccess Pluripotent Materials
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Sep10【Soft Matter Lecture150】Bioinspired Designs of Active and Sustainable Polymer Materials
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Sep10【Physical Chemistry Lecture】Deciphering Chiral Phenomena in Complex Environments: Chiral Signatures Detected by Raman Optical Activity Spectroscopy
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Sep08【Physical Chemistry Lecture】Rotational Spectroscopy of Complexes and Clusters: From Pure Dispersion to Hydrogen Bond Dominated Interactions
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Sep08【Physical Chemistry Lecture】Yes, even today, there is much to be learned about Reaction Rate Theory
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Aug20【organic chemistry Forum】Stereoelectronic Effects on Stability and Reactivity