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第一作者单位论文:
(1)Tao F, et al. Organohalogenated flame retardants and organophosphate esters in office air and dust from Sweden. Environmental Science & Technology. 2019, 53(4): 2124-2133.
(2)Monika M, et al. Physical properties of carbon nanomaterials and nanoceria affect pathways important to the nodulation competitiveness of the symbiotic N2‐fixing bacterium bradyrhizobium diazoefficiens. Small.2020, 16(21): 1906055.
(3)Hong WJ, et al. Soil concentrations and soil-air exchange of polycyclic aromatic hydrocarbons in five asian countries. Science of The Total Environment, 2020, 711: 135223.
(4)Hong WJ, et al. Distribution, seasonal trends, and lung cancer risk of atmospheric polycyclic aromatic hydrocarbons in North China: A three-year case study in Dalian city. Ecotoxicology and Environmental Safety, 2020, 196: 110526.
(5)Zhang YR, et al. Interplay between engineered nanomaterials and microbiota. Environmental Science. Nano, 2020, 7(9): 2454-2485.
(6)Huang WQ, et al. Antibacterial nanomaterials for environmental and consumer product applications. NanoImpact, 2020, 20: 100268.
(7)Mortimer M, et al. Evaluation of frameworks proposed as protective of antimicrobial resistance propagation in the environment. Environment International. 2020, 144: 106053.
合作论文:
(1)Xin Y, et al. Comparative in vitro and in vivo evaluation of the estrogenic effect of hexafluoropropylene oxide homologues. Environmental Science & Technology. 2019, 53(14): 8371-8380.
(2)Cao LY, et al. Estrogen-related receptor γ is a novel target for Lower-Chlorinated Polychlorinated Biphenyls and their hydroxylated and sulfated metabolites. Environmental Pollution. 2019, 254, 113088.
(3)Faridi A, et al. Graphene quantum dots rescue protein dysregulation of pancreatic β-cells exposed to human islet amyloid polypeptide. Nano Research. 2019,12(11): 2827–2834 .
(4)Wang D, et al. Uptake, depuration, bioaccumulation, and selective enrichment of dechlorane plus in common carp (Cyprinus carpio). Environmental Science and Pollution Research, 2020, 27(6):6269-6277.
(5)Qin WP, et al. Perfluoroalkyl substances stimulate insulin secretion by islet β cells via G protein-coupled receptor 40. Environmental Science & Technology. 2020, 54(6): 3428-3436.
(6)Xin Y, et al. Chlorinated polyfluoroalkylether sulfonic acids exhibit stronger estrogenic effects than perfluorooctane sulfonate by activating nuclear estrogen receptor pathways. Environmental Science & Technology, 2020, 54(6): 3455-3464.
(7)Koppel K, et al. Elevated Amyloidoses of human IAPP and amyloid beta by lipopolysaccharide and their mitigation by carbon quantum dots. Nanoscale, 2020, 12(23): 12317-12328.
(8)Fadare OO, et al. Eco-Corona vs protein corona: effects of humic substances on corona formation and nanoplastic particle toxicity in daphnia magna. Environmental Science & Technology, 2020, 54(13):8001-8009.
(9)Zheng XY, et al. Binding and activation of estrogen related receptor γ as possible molecular initiating events of hydroxylated benzophenones endocrine disruption toxicity. Environmental Pollution, 2020, 263:114656.
(10)Li CH, etal. Receptor-bound perfluoroalkyl carboxylic acids dictate their activity on human and mouse peroxisome proliferator-activated receptor γ. Environmental Science & Technology, 2020,54(15):9529-9536.
(11)Javed I, et al. Implications of the human gut-brain and gut-cancer axes for future nanomedicine. ACS Nano, 2020, 14(11):14391-14416.
(12)Piersanti A , et al. Transcriptomic responses to silver nanoparticles in the freshwater unicellular eukaryote Tetrahymena thermophila. Environmental Pollution, 2020, 269:115965.
