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成果及论文

黄明贤

(1) Huang M, Liu L, Wang S, Zhu H, Wu D, Yu Z, et al. Dendritic Mesoporous Silica Nanospheres Synthesized by a Novel Dual-Templating Micelle System for the Preparation of Functional Nanomaterials. Langmuir 2017;33:519-26.

(2) Huang M, Ma H, Niu M, Hu F, Wang S, Li L, et al. Preparation of silica microspheres with a broad pore size distribution and their use as the support for a coated cellulose derivative chiral stationary phase. Journal of Separation Science 2018;41:1232-9.

(3) Niu M, Ma H, Hu F, Wang S, Liu L, Chang H, et al. Preparation of large-pore silica microspheres using templating method and their applications to protein separation with high performance liquid chromatography. Se pu = Chinese journal of chromatography 2017;35:565-71.

(4) Wang S, Zhao J, Hu F, Li X, An X, Zhou S, et al. Phase-changeable and bubble-releasing implants for highly efficient HIFU-responsive tumor surgery and chemotherapy. Journal of Materials Chemistry B 2016;4:7368-78.

(5) Wang S, Zhao J, Yang H, Wu C, Hu F, Chang H, et al. Bottom-up synthesis of WS2 nanosheets with synchronous surface modification for imaging guided tumor regression. Acta Biomaterialia 2017;58:442-54.

(6) Wang Z, Zhang L, Guo B, Wang S, Huang M. Preparation of mixed-mode stationary phase for high performance liquid chromatography with ground hybrid silica monolithic material. Se pu = Chinese journal of chromatography 2019;37:484-90.

(7) Wu C, Wang S, Zhao J, Liu Y, Zheng Y, Luo Y, et al. Biodegradable Fe(III)@WS2-PVP Nanocapsules for Redox Reaction and TME-Enhanced Nanocatalytic, Photothermal, and Chemotherapy. Advanced Functional Materials 2019, 29 (26), 1901722.

 

王世革

(1)    Zheng, Y. T.;  Wang, W. F.;  Zhao, J. L.;  Wu, C. Y.;  Ye, C. Q.;  Huang, M. X.; Wang, S. G., Preparation of injectable temperature-sensitive chitosan-based hydrogel for combined hyperthermia and chemotherapy of colon cancer. Carbohydr. Polym. 2019, 222, 11.

(2)    Wu, C. Y.;  Wang, S. G.;  Zhao, J. L.;  Liu, Y. Y.;  Zheng, Y. T.;  Luo, Y.;  Ye, C. Q.;  Huang, M. X.; Chen, H. R., Biodegradable Fe(III)@WS2-PVP Nanocapsules for Redox Reaction and TME-Enhanced Nanocatalytic, Photothermal, and Chemotherapy. Adv. Funct. Mater. 2019, 29 (26), 16.

(3)    Liu, Y. Y.;  Xi, Y. X.;  Zhao, J. L.;  Zhao, J. Y.;  Li, J. C.;  Huang, G. Q.;  Li, J. Q.;  Fang, F.;  Gu, L. L.; Wang, S. G., Preparation of therapeutic-laden konjac hydrogel for tumor combination therapy. Chem. Eng. J. 2019, 375, 11.

(4)    Guo, B. Q.;  Zhao, J. L.;  Wu, C. Y.;  Zheng, Y. T.;  Ye, C. Q.;  Huang, M. X.; Wang, S. G., One-pot synthesis of polypyrrole nanoparticles with tunable photothermal conversion and drug loading capacity. Colloid Surf. B-Biointerfaces 2019, 177, 346-355.

(5)    Zhao, J. L.;  Xie, P.;  Ye, C. Q.;  Wu, C. Y.;  Han, W. C.;  Huang, M. X.;  Wang, S. G.; Chen, H. R., Outside-in synthesis of mesoporous silica/molybdenum disulfide nanoparticles for antitumor application. Chem. Eng. J. 2018, 351, 157-168.

(6)    Zhao, J. L.;  Li, J. L.;  Zhu, C. P.;  Hu, F.;  Wu, H. Y.;  Man, X. H.;  Li, Z. S.;  Ye, C. Q.;  Zou, D. W.; Wang, S. G., Design of Phase-Changeable and Injectable Alginate Hydrogel for Imaging-Guided Tumor Hyperthermia and Chemotherapy. ACS Appl. Mater. Interfaces 2018, 10 (4), 3392-3404.

(7)    Ye, C. Q.;  Zhao, J. L.;  Zheng, Y. T.;  Wu, C. Y.;  Chen, Y.;  Wu, H.;  An, X.;  Huang, M. X.; Wang, S. G., Preparation of Poly(lactic-co-glycolic acid)-Based Composite Microfibers for Postoperative Treatment of Tumor in NIR I and NIR II Biowindows. Macromol. Biosci. 2018, 18 (10), 13.

(8)    Wu, C. Y.;  Zhao, J. L.;  Hu, F.;  Zheng, Y. T.;  Yang, H. L.;  Pan, S. J.;  Shi, S. H.;  Chen, X.; Wang, S. G., Design of injectable agar-based composite hydrogel for multi-mode tumor therapy. Carbohydr. Polym. 2018, 180, 112-121.

(9)    Wang, S. G.;  Hu, F.;  Li, J. C.;  Zhang, S. P.;  Shen, M. W.;  Huang, M. X.; Shi, X. Y., Design of electrospun nanofibrous mats for osteogenic differentiation of mesenchymal stem cells. Nanomed.-Nanotechnol. Biol. Med. 2018, 14 (7), 2505-2520.

(10)  Wang, S. G.;  Zhao, J. L.;  Yang, H. L.;  Wu, C. Y.;  Hu, F.;  Chang, H. Z.;  Li, G. X.;  Ma, D.;  Zou, D. W.; Huang, M. X., Bottom-up synthesis of WS2 nanosheets with synchronous surface modification for imaging guided tumor regression. Acta Biomater. 2017, 58, 442-454.

(11)   Wang, S. G.;  Zhao, J. L.;  Hu, F.;  Li, X.;  An, X. A.;  Zhou, S. L.;  Chen, Y.; Huang, M. X., Phase-changeable and bubble-releasing implants for highly efficient HIFU-responsive tumor surgery and chemotherapy. J. Mat. Chem. B 2016, 4 (46), 7368-7378.

(12)  Li, X.;  Gong, Y.;  Zhou, X. Q.;  Jin, H.;  Yan, H. H.;  Wang, S. G.; Liu, J., Facile synthesis of soybean phospholipid-encapsulated MoS2 nanosheets for efficient in vitro and in vivo photothermal regression of breast tumor. Int. J. Nanomed. 2016, 11, 1819-1833.

(13)  Hu, Y.;  Wang, R. Z.;  Wang, S. G.;  Ding, L.;  Li, J. C.;  Luo, Y.;  Wang, X. L.;  Shen, M. W.; Shi, X. Y., Multifunctional Fe3O4 @ Au core/shell nanostars: a unique platform for multimode imaging and photothermal therapy of tumors. Sci Rep 2016, 6, 12.

(14)  Hou, W. X.;  Wei, P.;  Kong, L. D.;  Guo, R.;  Wang, S. G.; Shi, X. Y., Partially PEGylated dendrimer-entrapped gold nanoparticles: a promising nanoplatform for highly efficient DNA and siRNA delivery. J. Mat. Chem. B 2016, 4 (17), 2933-2943.

(15)  Wang, S. G.;  Li, X.;  Chen, Y.;  Cai, X. J.;  Yao, H. L.;  Gao, W.;  Zheng, Y. Y.;  An, X.;  Shi, J. L.; Chen, H. R., A Facile One-Pot Synthesis of a Two-Dimensional MoS2/Bi2S3 Composite Theranostic Nanosystem for Multi-Modality Tumor Imaging and Therapy. Adv. Mater. 2015, 27 (17), 2775-+.

(16)  Wang, S. G.;  Li, K.;  Chen, Y.;  Chen, H. R.;  Ma, M.;  Feng, J. W.;  Zhao, Q. H.; Shi, J. L., Biocompatible PEGylated MoS2 nanosheets: Controllable bottom-up synthesis and highly efficient photothermal regression of tumor. Biomaterials 2015, 39, 206-217.

(17)  Wang, S. G.;  Chen, Y.;  Li, X.;  Gao, W.;  Zhang, L. L.;  Liu, J.;  Zheng, Y. Y.;  Chen, H. R.; Shi, J. L., Injectable 2D MoS2-Integrated Drug Delivering Implant for Highly Efficient NIR-Triggered Synergistic Tumor Hyperthermia. Adv. Mater. 2015, 27 (44), 7117-+.

(18)  Wang, S. G.;  Zhu, J. Y.;  Shen, M. W.;  Zhu, M. D.; Shi, X. Y., Poly(amidoamine) Dendrimer-Enabled Simultaneous Stabilization and Functionalization of Electrospun Poly(gamma-glutamic acid) Nanofibers. ACS Appl. Mater. Interfaces 2014, 6 (3), 2153-2161.

(19)  Li, K.;  Wang, S. G.;  Wen, S. H.;  Tang, Y. Q.;  Li, J. P.;  Shi, X. Y.; Zhao, Q. H., Enhanced In Vivo Antitumor Efficacy of Doxorubicin Encapsulated within Laponite Nanodisks. ACS Appl. Mater. Interfaces 2014, 6 (15), 12328-12334.

(20)  Zheng, F. Y.;  Wang, S. G.;  Wen, S. H.;  Shen, M. W.;  Zhu, M. F.; Shi, X. Y., Characterization and antibacterial activity of amoxicillin-loaded electrospun nano-hydroxyapatite/poly(lactic-co-glycolic acid) composite nanofibers. Biomaterials 2013, 34 (4), 1402-1412.

(21)  Wang, S. G.;  Wu, Y. L.;  Guo, R.;  Huang, Y. P.;  Wen, S. H.;  Shen, M. W.;  Wang, J. H.; Shi, X. Y., Laponite Nanodisks as an Efficient Platform for Doxorubicin Delivery to Cancer Cells. Langmuir 2013, 29 (16), 5030-5036.

(22)  Wang, S. G.;  Tomas, H.; Shi, X. Y., Electrospun laponite-doped poly(lactic-co-glycolic acid) nanofibers for osteogenic differentiation of human mesenchymal stem cells. J. Control. Release 2013, 172 (1), E139-E139.

(23)  Wang, S. G.;  Zheng, F. Y.;  Huang, Y. P.;  Fang, Y. T.;  Shen, M. W.;  Zhu, M. F.; Shi, X. Y., Encapsulation of Amoxicillin within Laponite-Doped Poly(lactic-co-glycolic acid) Nanofibers: Preparation, Characterization, and Antibacterial Activity. ACS Appl. Mater. Interfaces 2012, 4 (11), 6393-6401.

(24)  Wang, S. G.;  Castro, R.;  An, X.;  Song, C. L.;  Luo, Y.;  Shen, M. W.;  Tomas, H.;  Zhu, M. F.; Shi, X. Y., Electrospun laponite-doped poly(lactic-co-glycolic acid) nanofibers for osteogenic differentiation of human mesenchymal stem cells. J. Mater. Chem. 2012, 22 (44), 23357-23367.

(25)  Wang, S. G.;  Cao, X. Y.;  Shen, M. W.;  Guo, R.;  Banyai, I.; Shi, X. Y., Fabrication and morphology control of electrospun poly(gamma-glutamic acid) nanofibers for biomedical applications. Colloid Surf. B-Biointerfaces 2012, 89, 254-264.

(26)  Wang, S. G.;  Wen, S. H.;  Shen, M. W.;  Guo, R.;  Cao, X. Y.;  Wang, J. H.; Shi, X. Y., Aminopropyltriethoxysilane-mediated surface functionalization of hydroxyapatite nanoparticles: synthesis, characterization, and in vitro toxicity assay. Int. J. Nanomed. 2011, 6, 3449-3459.

 

李万方

(1) Li, W.; Boon, J. K.; Zhao, Y., Nickel-catalyzed difunctionalization of allyl moieties using organoboronic acids and halides with divergent regioselectivities, Chem. Sci.2018, 9, 600-607.

(2) Li, W.; Lu, B.; Zhang, Z., A Decennary Journey towards the Efficient Asymmetric Hydrogenation of Highly Functionalized Ketones, Chemical Record2016, 16, 2506-2520.

(3) Li, W.; Wu, X.-F. Palladium-Catalyzed Carbonylative Synthesis of Six-Membered Heterocycles from Aryl Halides[M]// Transition Metal Catalyzed Carbonylative Synthesis of Heterocycles. Springer International Publishing, 2015.

(4) Li, W.; Wu, X.-F., Ruthenium-Catalyzed Conjugate Hydrogenation of α,β-Enones by in situ Generated Dihydrogen from Paraformaldehyde and Water, Eur. J. Org. Chem.2015, 331-335.

(5) Li, W.; Wu, X.-F., Palladium-Catalyzed Aminocarbonylation of N-Chloroamines with Boronic Acids, Chem. Eur. J.2015, 21, 7374 –7378.

(6) Li, W.; Wu, X.-F., Palladium-Catalyzed Carbonylative Sonogashira Coupling between Aryl Triazenes and Alkynes, Org. Biomol. Chem.2015, 13, 5090–5093.

(7) Li, W.; Wu, X.-F., N2 Extrusion and CO Insertion: A Novel Palladium-Catalyzed Carbonylative Transformation of Aryltriazenes, Org. Lett.2015, 17, 19101913.

(8) Li, W.; Wu, X.-F., A Practical and General Base-Catalyzed Carbonylation of Amines for the Synthesis of N-Formamides, Chem. Eur. J.2015, 21, 14943-14948.

(9) Li, W.; Wu, X.-F., The Applications of (Para)formaldehyde in Metal-Catalyzed Organic Synthesis, Adv. Synth. Catal.2015, 357, 3393-3418.

(10) Li, W.; Beller, M.; Wu, X.-F., Catalytic Conversion of Aryl Triazenes into Aryl Sulfonamides Using Sulfur Dioxide as the Sulfonyl Source, Chem. Commun.2014, 50, 9513-9516.

(11) Li, W.; Li, H.; Langer, P.; Beller, M.; Wu, X.-F., Palladium-Catalyzed Aminosulfonylation of Aryl Iodides by using Na2SO3 as the SO2 Source, Eur. J. Org. Chem.2014, 3101-3103.

(12) Li, W.; Wu, X.-F., Palladium-Catalyzed Carbonylative Synthesis of Benzoxazinones from N-(o-Bromoaryl)amides Using Paraformaldehyde as the Carbonyl Source, J. Org. Chem.2014, 79, 10410-10416.

(13) Li, W.; Fan, W.; Ma, X.; Tao, X.; Li, X.; Xie, X.; Zhang, Z., Ru-Catalyzed Hydrogenation of 3,5-Diketo Amides: Simultaneous Control of Chemo- and Enantioselectivity, Chem. Commun.2012, 48, 8976-8978.

(14) Li, W.; Tao, X.; Ma, X.; Fan, W.; Li, X.; Zhao, M.; Xie, X.; Zhang, Z., Ruthenium-Catalyzed Asymmetric Hydrogenation of 3-Oxoglutaric Acid Derivatives: A Study of Unconventional Solvent and Substituent Effects, Chem. Eur. J.2012, 18, 16531-16539.

(15) Li, W.; Xie, X.; Tao, X.; Ma, X.; Fan, W.; Li, X.; Zhang, Z., RuCl2(PPh3)3-Catalyzed Chemoselective Hydrogenation of β,δ-Diketo Acid Derivatives at the β-Carbonyls, RSC Adv.2012, 2, 3214-3216.

(16) Li, W.; Ma, X.; Fan, W.; Tao, X.; Li, X.; Xie, X.; Zhang, Z., Ru-catalyzed Asymmetric Hydrogenation of 3-Oxoglutaric Acid Derivatives via Solvent-assisted Pinpoint Recognition of Carbonyls in Close Chemical Propinquity, Org. Lett.2011, 13, 3876-3879.



邓钦月

(1) Qinyue Deng, Yajing Shen, Haibo Zhu and Tao Tu*. A Magnetic Nanoparticle-Supported N-Heterocyclic Carbene-Palladacycle: An Efficient and Recyclable Solid Molecular Catalyst for Suzuki–Miyaura Cross-Coupling of 9-Chloroacridine. Chem. Commun., 2017, 53, 13063-13066; 

(2) Qinyue Deng, Yang Zhang, Haibo Zhu and Tao Tu*. Robust Acenaphthoimidazolylidene Palladacycles: Highly Efficient Catalysts for the Amination of N-Heteroaryl Chlorides. Chem. Asian J., 2017, 12, 2364-2368; 

(3) Weiwei Fang, Qinyue Deng, Mizhi Xu and Tao Tu*. Highly Efficient Aminocarbonylation of Iodoarenes at Atmospheric Pressure Catalyzed by a Robust Acenaphthoimidazolyidene Allylic Palladium Complex. Org. Lett., 2013, 15, 3678-3681. (共同一作)

(4) Shuangliang Liu, Qinyue Deng, Weiwei Fang, Jun-Fang Gong,* Mao-Ping Song,* Mizhi Xu and Tao Tu*. Efficient and scalable Pd-catalyzed double aminocarbonylations under atmospheric pressure at low catalyst loadings. Org. Chem. Front., 2014, 1, 1261-1265. 

 

刘璐

(1) Lu Liu, Hu Xu*, Bing Shen, Xinhua Zhong, High-Quality Water-Soluble Core/Shell/Shell CdSe/CdS/ZnS Quantum Dots Balanced by Ionic and Nonionic Hydrophilic Capping Ligands, Nano, 2016, 11: 1650073.

(2) Lu Liu, Xinhua Zhong*, A General Andreversible Phase Transfer Strategy Enabling Nucleotides Modified High-Quality Water-Soluble Nanocrystals, Chemical Communications, 2012, 48: 5718-5720.

(3) Lu Liu, Xuhong Guo, Yan Li, Xinhua Zhong*, Bifunctional Multidentate Ligand Modified Highly Stable Water-Soluble Quantum Dots, Inorganic Chemistry, 2010, 49: 3768-3775.

(4) Tongcheng Dai, Na Li, Lu Liu, Qin Liu* and Yuanxing Zhang, AMP-Conjugated Quantum Dots: Low Immunotoxicity Both In Vitro and In Vivo. Nanoscale Research Letters, 2015, 10(1): 1-9.

郝伟举

(1)    Weiju Hao, Renbing Wu, Dalin Sun, Fang Fang,* and Yanhui Guo*. Electroless Plating of Highly Efficient Bifunctional Boride-Based Electrodes toward Practical Overall Water Splitting. Adv. Energy Mater. 2018, 1801372. 

(2)    Weiju Hao, Renbing Wu,Yanhui Guo*. Photothermal coupling electrolysis on Ni–W–Btoward practical overall water splitting.  J.Mater. Chem.A.2019.7.12440-12445.

(3)    L Wang, J Li, X Zhao, W Hao, X Ma, S Li, Y Guo, Surface-Activated Amorphous Iron Borides (FexB) as Efficient Electrocatalysts for Oxygen Evolution Reaction. Advanced Materials Interfaces 2019, 6 , 1801690.(通讯作者)

(4)    Lincai Wang, Mingshen Zhong, Weiju Hao,* Yanhui Guo*. Highly efficient ferromagnetic Co-B-O catalyst for hydrogen generation. International Journal o f Hydrogen Energy. 2018.43.17164-17171(通讯作者)

(5)    Weiju Hao, Danyang Liu, Yazhuo Shang, Junqi Zhang, Shouhong Xu*, Honglai Liu*. Dual-Stimuli Responsive Upconversion Nanomaterials under Host-Guest for Assembly and Drug Delivery. Colloids and Surfaces A 2018. 537. 446–451.

(6)    Weiju Hao, Yazhuo Shang, Junqi Zhang, Shouhong Xu*, Honglai Liu. Versatile Fluorescence and pH-Trigger Micelle Nanopartical for Target Drug Delivery. Microchimica Acta. 2017. 184:2881–2891.

(7)    Weiju Hao, Yinxing Shen, Danyang Liu1, Yazhuo Shang1, Junqi Zhang2*, Shouhong Xu1*, Honglai Liu1. Dual-pH-sensitivity and Tumour Targeting Core-Shell Particle for Intracellular Drug Delivery. RSC Advances. 2017, 7, 851–860.

(8)    Weiju Hao, Danyang Liu, Yazhuo Shang, Junqi Zhang*, Shouhong Xu*, Honglai Liu. pH-Triggered copolymer micelles as drug nanocarriers for intracellular delivery†. RSC Advances. 2016, 6, 29149-29158.

(9)    Weiju Hao, Tian Xia, Yazhuo Shang, Shouhong Xu*, Honglai Liu. Characterization and release kinetics of liposomes inserted by pH-responsive bola-polymer. Colloid Polym Sci. 2016. 294:1107-1116. 

(10)    Weiju Hao, Junqi Zhang, Yazhuo Shang, Shouhong Xu*, Honglai Liu. Preparation of Fluoresence Labeling pH-Sensitive Micelles for Controlled Drug Release. Acta Phys. - Chim. Sin. 2016, 32 (10), 2628-2635.

(11) Weiju Hao, Yazhuo Shang, Shouhong Xu*, and Honglai Liu. Incorporation of Amphipathic Diblock Copolymer in Lipid Bilayer for Improving pH Responsiveness. International Journal of Polymer Science.Volume 2016, Article ID 5879428, 10 pages.

(12) Weiju Hao, Xia Han, Yazhuo Shang, Shouhong Xu*, Honglai Liu*. Insertion of pH-sensitive bola-type copolymer into liposome as a“stability anchor” for control of drug release. Colloids and Surfaces B: Biointerfaces 2015.136. 809-816.



岳兵兵

(1) Bingbing Yue, Liyuan Yin, Wandong Zhao, Xiaoyong Jia, Mingjie Zhu, Bin Wu, Si Wu, Liangliang Zhu*, Chirality transfer in organogel-based nanofibers enabling wide-range naked-eye enantiodifferentiation, ACS Nano 2019, 

(2) Bingbing Yue, Xin Jin, Pei Zhao, Mingjie Zhu, Liangliang Zhu*, Directed Self-Assembly of Templatable Block Copolymers by Easily Accessible Magnetic Control, Small 2019, 15, 1804572. 

(3) Bingbing Yue, Liangliang Zhu*, Dynamic Modulation of Supramolecular Chirality Driven by Factors from Internal to External Level, Chem-Asian J. 2019, 14, 2172-2180. 

(4) Bingbing Yue,Bowu Zhang, Jichun You, Yongjin Li, Linfan Li and Jingye Li*,“Lotus-effect”  tape:  Imparting superhydrophobicity to solid materials with an electrospun Janus composite mat. RSC Adv. 2016, 6, 17215-17221.