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今天是发表文章
1.Red blood cell-derived nanovesicles for safe and efficient macrophage-targeted drug deliveryin vivo.Xue Wan, Shi Zhang, Feng Wang, Wei Fan, Chenxi Wu, Kuirong Mao, Hongda Wang, Zheng Hu, Yong-Guang Yang*, and Tianmeng Sun*, Biomater. Sci. 2019, 7 (1), 187-195
2.Inhibition of intrinsic coagulation improves safety and tumor-targeted drug delivery of cationic solid lipid nanoparticles.Xuan Wu, Hongmei Chen, Chenxi Wu, Jialiang Wang, Shi Zhang, Jing Gao, Hongda Wang, Tianmeng Sun*, and Yongguang Yang*, Biomater. 2018, 156, 77-87
3.Tumor acidity-activatable TAT targeted nanomedicine for enlarged fluorescence/magnetic resonance imaging-guided photodynamic therapy.Meng Gao, Feng Fan, Dongdong Li, Yue Yu*, Kuirong Mao, Tianmeng Sun*, Haisheng Qian, Wei Tao, and Xianzhu Yang*, Biomater. 2017, 133, 165-175
4.The influence of tumor-induced immune dysfunction on the immune cell distribution of gold nanoparticlesin vivo.Chenxi Wu, Hongmei Chen, Xuan Wu, Xiuxiu Cong, Li Wang, Yucai Wang, Yong-Guang Yang, Wei Li*, and Tianmeng Sun*, Biomater. Sci. 2017, 5 (8), 1531-1536
5.Targeted Delivery of Anti‐miR‐712 by VCAM1‐Binding Au Nanospheres for Atherosclerosis Therapy.Tianmeng Sun, Rachel Simmons, Da Huo, Bo Pang, Xin Zhao, Chan Woo Kim, Hanjoong Jo, and Younan Xia*, ChemNanoMat 2016, 2 (5), 400-406
6.Engineered Nanoparticles for Drug Delivery in Cancer Therapy.Tianmeng Sun, Yu Shrike Zhang, Bo Pang, Dong Choon Hyun, Miaoxin Yang, and Younan Xia*, Angew. Chem. Int. Ed. 2014, 53 (46), 12320-12364
7.Cancer stem cell therapy using doxorubicin conjugated to gold nanoparticles via hydrazone bonds.Tianmeng Sun, Yucai Wang, Feng Wang, Jinzhi Du, Chengqiong Mao, Chunyang Sun, Ruizhi Tang, Yang Liu, Jing Zhu, Yanhua Zhu, Xianzhu Yang, and Jun Wang*, Biomater. 2014, 35 (2), 836-845
8.Using SV119‐Gold Nanocage Conjugates to Eradicate Cancer Stem Cells Through a Combination of Photothermal and Chemo Therapies.Tianmeng Sun, Yi Wang, Yucai Wang, Jinbin Xu, Xin Zhao, Suwanna Vangveravong, Robert. H. Mach, and Younan Xia*, Adv. Healthc. Mater. 2014, 3 (8), 1283-1291
9.Enhanced drug delivery to hepatocellular carcinoma with a galactosylated core–shell polyphosphoester nanogel.Juan Wu, Tianmeng Sun, Xianzhu Yang, Jing Zhu, Xiaojiao Du, Yandan Yao, Menghua Xiong, Hongxia Wang, Yucai Wang, and Jun Wang*, Biomater. Sci. 2013, 1 (11), 1143-1150
10.Targeted Delivery of PLK1-siRNA by ScFv Suppresses Her2+Breast Cancer Growth and Metastasis.Yandan Yao, Tianmeng Sun, Songyin Huang, Shuang Dou, Ling Lin, Chengqiong Mao, Fengyan Yu, Musheng Zeng, Jianye Zang, Qiang Liu, Fengxi Su, Peter Zhang, Judy Lieberman*, Jun Wang*, and Erwei Song*, Sci. Transl. Med. 2012, 4 (130), 30-48
11.Simultaneous Delivery of siRNA and Paclitaxelviaa “Two-in-One” Micelleplex Promotes Synergistic Tumor Suppression.Tianmeng Sun, Jinzhi Du, Yandan Yao, Chengqiong Mao, Shuang Dou, Songyin Huang, Peizhuo Zhang, Kam W. Leong, Erwei Song*, and Jun Wang*, ACS Nano, 2011, 5 (2), 1483-1494
12.A Tumor‐Acidity‐Activated Charge‐Conversional Nanogel as an Intelligent Vehicle for Promoted Tumoral‐Cell Uptake and Drug Delivery.Jinzhi Du, Tianmeng Sun, Wenjing Song, Juan Wu, and Jun Wang*, Angew. Chem. Int. Ed. 2010, 122 (21), 3703-3708
13.Self-assembled biodegradable micellar nanoparticles of amphiphilic and cationic block copolymer for siRNA delivery.Tianmeng Sun, Jinzhi Du, Lifeng Yan, Haiquan Mao, and Jun Wang*, Biomater. 2008, 29 (32), 4348-4355
14.Development of anisamide-targeted PEGylated gold nanorods to deliver epirubicin for chemo-photothermal therapy in tumor-bearing mice.Limei Wang, Jin Pei*, Zhongcheng Cong, Yifang Zou, Tianmeng Sun, Fionán Davitt, Adrià Garcia-Gil, Justin D. Holmes, Caitriona M. O'Driscoll, Kamil Rahme, and Jianfeng Guo*, Int. J. Nanomed. 2019, 14, 1817-1833
15.Synergistic Reducing Effect for Synthesis of Well-Defined Au Nanooctopods With Ultra-Narrow Plasmon Band Width and High Photothermal Conversion Efficiency.Yixin Chang, Huimin Gao, Ningning Zhang, Xingfu Tao, Tianmeng Sun, Junhu Zhang, Zhongyuan Lu, Kui Liu*, and Bai Yang, Front. Chem. 2018, 6, 335
16.Receptor and Microenvironment Dual-Recognizable Nanogel for Targeted Chemotherapy of Highly Metastatic Malignancy.Jinjin Chen, Jianxun Ding, Weiguo Xu, Tianmeng Sun, Haihua Xiao, Xiuli Zhuang, and Xuesi Chen*, Nano Lett. 2017, 17 (7), 4526-4533
17.Design of Tumor Acidity-Responsive Sheddable Nanoparticles for Fluorescence/Magnetic Resonance Imaging-Guided Photodynamic Therapy.Feng Fan, Yue Yu, Fei Zhong, Meng Gao, Tianmeng Sun, Jiaxin Liu, Huimao Zhang, Haisheng Qian, Wei Tao, and Xianzhu Yang*, Theranostics 2017, 7 (5), 1290-1302
18.Surface-modulated and thermoresponsive polyphosphoester nanoparticles for enhanced intracellular drug delivery.Yang Li, Feng Wang, Tianmeng Sun, Jinzhi Du, Xianzhu Yang, and Jun Wang*, Sci. China Chem. 2014, 57 (4), 579-585
19.Multiresponsive Polymer Assemblies Achieved by a Subtle Chain Terminal Modification.Weiwei Liu, Yucai Wang, Yang Li, Feng Wang, Xianzhu Yang, Tianmeng Sun, Jinzhi Du, and Jun Wang*, Chin. J. Chem. 2014, 32 (1), 51-56
20.Anti-Her2 single-chain antibody mediated DNMTs-siRNA delivery for targeted breast cancer therapy.Shuang Dou, Yandan Yao, Xianzhu Yang, Tianmeng Sun, Chengqiong Mao, Erwei Song*, and Jun Wang*, J. Control. Release, 2012, 161 (3), 875-883
21.Systemic delivery of siRNA with cationic lipid assisted PEG-PLA nanoparticles for cancer therapy.Xianzhu Yang, Shuang Dou, Tianmeng Sun, Chengqiong Mao, Hongxia Wang, and Jun Wang*, J. Control. Release, 2011, 156 (2), 203-211
22.Redox-Responsive Nanoparticles from the Single Disulfide Bond-Bridged Block Copolymer as Drug Carriers for Overcoming Multidrug Resistance in Cancer Cells.Yucai Wang, Feng Wang, Tianmeng Sun, and Jun Wang*, Bioconjugate Chem. 2011, 22 (10), 1939-194
23.A biodegradable amphiphilic and cationic triblock copolymer for the delivery of siRNA targeting the acid ceramidase gene for cancer therapy.Chengqiong Mao, Jinzhi Du, Tianmeng Sun, Yandan Yao, Peizhuo zhang, Erwei Song, and Jun Wang*, Biomater. 2011, 32 (11), 3124-3133
24.Doxorubicin-Tethered Responsive Gold Nanoparticles Facilitate Intracellular Drug Delivery for Overcoming Multidrug Resistance in Cancer Cells.Feng Wang, Yucai Wang, Shuang Dou, Menghua Xiong, Tianmeng Sun, and Jun Wang*, ACS Nano, 2011, 5 (5), 3679-3692
25.Targeted Delivery of Antisense Inhibitor of miRNA for Antiangiogenesis Therapy Using cRGD-Functionalized Nanoparticles.Xiqiu Liu, Wenjing Song, Tianmeng Sun, Peizhuo Zhang, and Jun Wang*, Mol. Pharmaceut. 2011, 8 (1), 250–259
26.Gold Nanoparticles Capped with Polyethyleneimine for Enhanced siRNA Delivery.Wenjing Song, Jinzhi Du, Tianmeng Sun, Peizhuo Zhang, and Jun Wang*, Small, 2010, 6 (1), 239-246
27.Core–Shell–Corona Micelle Stabilized by Reversible Cross‐Linkage for Intracellular Drug Delivery.Yucai Wang, Yang Li, Tianmeng Sun, Menghua Xiong, Juan Wu, Yiyan Yang, and Jun Wang*, Macromol. Rapid Comm. 2010, 31 (13), 1201-1206
28.Block Copolymer of Polyphosphoester and Poly(l-Lactic Acid) Modified Surface for Enhancing Osteoblast Adhesion, Proliferation, and Function.Xianzhu Yang, Tianmeng Sun, Shuang Dou, Juan Wu, Yucai Wang, and Jun Wang*, Biomacromolecules, 2009, 10 (8), 2213-2220
29.Biodegradable polycation and plasmid DNA multilayer film for prolonged gene delivery to mouse osteoblasts.Zhenzhen Lu, Juan Wu, Tianmeng Sun, Jing Ji, Lifeng Yan, and J. Wang*, Biomater. 2008, 29 (6), 733-741
30.Synthesis and Characterization of Photo-Cross-Linked Hydrogels Based on Biodegradable Polyphosphoesters and Poly(ethylene glycol) Copolymers.Jinzhi Du, Tianmeng Sun, Songqing Weng, Xuesi Chen, and Jun Wang*, Biomacromolecules, 2007, 8 (11), 3375-3381
31.Functionalized micelles from block copolymer of polyphosphoester and poly(?-caprolactone) for receptor-mediated drug delivery.Yucai Wang, Xiqiu Liu, Tianmeng Sun, Menghua Xiong, and Jun Wang*, J. Control. Release, 2008, 128 (1), 32-40
32.Self-Assembled Micelles of Biodegradable Triblock Copolymers Based on Poly(ethyl ethylene phosphate) and Poly(?-caprolactone) as Drug Carriers.Yucai Wang, Lingyan Tang, Tianmeng Sun, Changhua Li, Menghua Xiong, and Jun Wang*, Biomacromolecules, 2008, 9 (1), 388-395