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Li, S.; Sun, M.; Hao, C.; Qu, A.; Wu, X.;Xu, L.*; Xu, C.; Kuang, H. Chiral CuxCoyS Nanoparticles under Magnetic Field and NIR Light to Synergistically Eliminate Senescent Cells.Angew. Chem. Int. Ed.2020, doi:10.1002/anie.202004575. (2018影响因子: 12.257)
Yuan, A.#; Hao, C.#; Wu, X.; Sun, M.; Qu, A.;Xu, L.*; Kuang, H.; Xu, C. Chiral CuxOS@ZIF-8 Nanostructures for Ultrasensitive Quantification of Hydrogen Sulfide In Vivo,Adv. Mater., 2020, 32: 1906580. (2018影响因子: 25.809)
Li, C.; Li, S.; Qu, A.; Kuang, H.;Xu, L.*; Xu, C. Directing Arrowhead Nanorod Dimers for MicroRNAIn SituRaman Detection in Living Cells.Adv. Funct. Mater.2020, 30, 2001451. (2018影响因子: 15.621)
Hao, C.; Wu, X.; Sun, M.; Zhang, H.; Yuan, A.;Xu, L.*; Xu, C.; Kuang, H*. Chiral Core–Shell Upconversion Nanoparticle@MOF Nanoassemblies for Quantification and Bioimaging of Reactive Oxygen Speciesin Vivo.J. Am. Chem. Soc.2019,141 (49), 19373–19378.(2018影响因子: 14.695)
Li, S.; Liu, J.; Ramesar, N. S.; Heinz, H.;Xu, L.*; Xu, C.; Kotov, N. A*. Single- and Multi-Component Chiral Supraparticles as Modular Enantioselective Catalysts.Nature Commun.2019, 10, 4826.(2018影响因子: 12.257)
Li, S.;Xu, L. *; Hao, C.; Sun, M.; Wu, X.; Kuang, H.; Xu, C.*In vivobioimaging of porous CuxCoyS supraparticles with high reactive oxygen species performance and telomerase responsivity.Angew. Chem. Int. Ed.2019, 58 (52), 19067–19072. (2018影响因子: 12.257)
Ma, W.; Mao, J.; Hao, C.;Xu, L.*; Xu, C.; Kuang, H. Chiral Semiconductor Nanorod Heterostructures with High Photocatalysis Activity.Appl. Catal. B Environ.2019,245, 691–697. (2018影响因子: 14.229)
Wang, Z.; Zhang, J.*; Liu, L.; Wu, X.; Kuang, H.; Xu, C.;Xu, L.*A Colorimetric Paper-Based Sensor for Toltrazuril and Its Metabolites in Feed, Chicken, and Egg Samples.Food Chem.2019, 276, 707-713.(2018影响因子: 5.399)
Wang, Z.; Sun, L.; Liu, L.; Kuang, H.*;Xu, L.*; Xu, C. Ultrasensitive Detection of Seventeen Chemicals Simultaneously Based on Paper Sensor.Mater. Chem. Front.2018, 2, 1900-1910.
Xu, L.#; Gao, Y.#; Kuang, H.*; Liz-Marzan, L. M.*; Xu, C. miRNA-Directed Intracellular Self-Assembly of Chiral Nanorod Dimers.Angew. Chem. Int. Ed.2018, 57(33), 10544-10548. (Front Cover, 2018影响因子: 12.257)
Xu, L.*#; Sun, M.#; Cheng, P.#; Gao, R.; Wang, H.; Ma, W.; Shi, X.*; Xu, C.; Kuang, H.* 2D Chiroptical Nanostructures for High-Performance Photooxidants.Adv. Funct. Mater.2018,28, 1707237. (2018影响因子: 15.621)
Xu, L.; Yan, W.; Ma, W.; Kuang, H.*; Wu, X.; Liu, L.; Zhao, Y.; Wang, L.; Xu, C. SERS Encoded Silver Pyramids for Attomolar Detection of Multiplexed Disease Biomarkers.Adv. Mater.2015,27, 1706-1711. (2018影响因子: 25.809)
Sun, M.;Xu, L.*; Ma, W.; Wu, X.; Kuang, H.*; Wang, L.; Xu, C. Hierarchical Plasmonic Nanorods and Upconversion Core-Satellite Nanoassemblies for Multimodal Imaging-Guided Combination Phototherapy.Adv. Mater.2016,28, 898-904. (2018影响因子: 25.809)
Xu, L.; Zhao, S.; Ma, W.; Wu, X.; Li, S.; Kuang, H.*; Wang, L.; Xu, C. Multigaps Embedded Nanoassemblies EnhanceIn SituRaman Spectroscopy for Intracellular Telomerase Activity Sensing.Adv. Funct. Mater.2016, 26, 1602-1608. (2018影响因子: 15.621)
Xu, L.; Ma, W.; Wang, L.; Xu, C.; Kuang, H.*; Kotov, N. A*. Nanoparticle assemblies: dimensional transformation of nanomaterials and scalability.Chem. Soc. Rev.2013,42, 3114-3126. (2018影响因子: 40.443)
Xu L.; Sun M.; Ma W.; Kuang H.; Xu C*. Self-assembled nanoparticle dimers with contemporarily relevant properties and emerging applications.Mater. Today.2016,19, 595–606. (2018影响因子: 24.372)
Xu, L.#; Kuang, H.#; Xu, C.#; Ma, W.; Wang, L.*; Kotov, N. A*. Regiospecific Plasmonic Assemblies forin SituRaman Spectroscopy in Live Cells.J. Am. Chem. Soc.2012,134, 1699-1709. (2018影响因子: 14.695,Spotlights on Recent JACS Publications)