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Degree:Ph.D.
Graduate School:Chinese Academy of Science
Email:liruibin@suda.edu.cn
Office Location:401 Building
Tel:+86-512-65880062
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2016-Now, Professor, Medicine School, Soochow University, China;
2011-2016, Post Doc, Medicine School, UCLA, USA.
2011,Ph.D, Dalian Institue of Chemical Physics, Chinese Academy of Science;
2005,BA, University of Science and Technology in Beijing, China
1.Radiation and Nanomedicine;
2.Radiological and Nano Toxicology;
3.Technologies towards AMR crisis.
2016, Oversea Talent Program, 3,000K RMB;
2017, National Natural Science Foundation of China, 620K RMB;
2018, Key Project of social development of Jiangsu Province, 2,000K RMB
2020, National Natural Science Foundation of China,650K RMB;
2020, Key International Cooperation Projects of the Ministry of Science and Technology,1,030K RMB
Selected Publications:
10. Wu, D#; Li, J#; Xu, J; Xie, Q; Pan, Y; Liu, X; Ma, R; Zheng, H; Gao, M; Wang, W; Li, J; Cai, X; Jaouen, F*; Li, R*, Engineering Fe–N Doped Graphene to Mimic Biological Functions of NADPH Oxidase in Cells, J. Am. Soc. Chem. 2020, DOI: 10.1021/jacs.0c08360.
9. Wang, W#; Kong, Y#; Jiang J; Xie Q; Huang Y; Li G; Wu D; Zheng H; Gao M; Xu S; Pan Y; Li W; Ma R; Wu M; Li X; Zuilhof, H; Cai X; Li R*, Engineering Corona Structure on Gold Nanoclusters for Gastrointestinal Imaging by Red-shifted Emissions in the Second Near-infrared Window, Angew. Chem. 2020, 59, DOI:/10.1002/anie.202010089.
8. Xu,S; Zheng, H; Ma, R; Wu, D; Pan, Y; Yin, C; Gao, M; Wang, W; Li, W;Liu, S; Chai, Z; Li, R*, Vacancies on2D transition metal dichalcogenides elicit ferroptotic cell death, Nat. Commun.2020, 11, 3484.
7. Gao, M; Wang, Z; Zheng, H; Wang, L; Xu, X; Liu, X; Li, W; Pan, Y; Wang, W; Cai,X; Wu, R; Gao, X*; Li, R*, Two-Dimensional Tin Selenide (SnSe)Nanosheets Capable of Mimicking Key Dehydrogenases in Cellular Metabolism, Angew. Chem. 2020, 132, 3618-3623.
6. Huang,Y; Li, X*; Xu, S; Zheng, H; Zhang, L; Chen, J; Hong, H; Kusko, R; Li, R*, Quantitative Structure–Activity Relationship Models for PredictingInflammatory Potential of Metal Oxide Nanoparticles, Environ. Health Perspect. 2020, 128, 067010.
5. Cai, X; Liu, X; Jiang, J; Gao, M; Wang, W; Zheng, H; Xu, S; Li, R*, Molecular Mechanisms, Characterization methods and Utilities of NanoparticleBiotransformation in Nanosafety Assessments, Small, 2020,1907663.
4. Zheng, H; Ji, Z; Roy, K; Gao, M; Pan, X; Cai, X; Wang, L; Li, W; Chang, C; Kaweeteerawat, C; Chen, C; Xia, T; Zhao, Y; Li, R*, Engineered Graphene OxideNanocomposite Capable of Preventing the Evolution of Antimicrobial Resistance, ACS Nano, 2019, 11488.
3. Cai, X; Dong, J; Liu, J; Zheng, H; Kaweeteerawat, C; Wang F, Ji Z*; Li, R*, Multi-hierarchical profilingthe structure-activity relationships of engineered nanomaterials at nano-biointerfaces, Nat. Commun. 2018, 9, 4416.
2. Zheng, H; Ma, R; Gao, M; Tian, X; Li, Y; Zeng, L*; Li, R*, Antibacterialapplications of graphene oxides: structure-activity relationships, molecularinitiating events and biosafety, Sci. Bull. 2018, 133.
1. Cai, X; Lee, A; Ji, Z; Huang, C; Chang, C. H; Wang, X; Liao, Y; Xia, T*; Li, R*, Reduction ofpulmonary toxicity of metal oxide nanoparticles by phosphonate-based surfacepassivation, Part. Fibre Toxic. 2017, 14:13.
