中国科学技术大学 华南理工大学中文|English
当前位置:首页<samp实验室成员<samp王育才教授

  王育才,男,教授,博士生导师。2005年于中国科学技术大学获得学士学位;2010年于中国科学技术大学获得博士学位;2011年1月起先后于圣路易斯华盛顿大学生物医学工程系、佐治亚理工学院生物医学工程系及芝加哥大学James Franck研究所从事博士后研究。2015年回到中国科学技术大学生命科学学院任教,主持或参与科技部重点研发、基金委重点项目、面上项目等。

  多年来一直从事纳米材料在癌症治疗及成像领域的研究,Nat MaterNat CommunPNASNano LettersACS Nano国际学术期刊发表研究论文70余篇,引用次数超过5000次,H-index 39

  

主要研究兴趣:

1、可降解生物材料

2、纳米药物用于癌症诊疗 

联系方式:yucaiwang@ustc.edu.cn

近期主要论文:

2019

[1] S. Li, Q. Wang, Y. Shen, M. Hassan, J. Shen, W. Jiang, Y. Su, J. Chen, L. Bai, W. C. Zhou, Y. C. Wang.* Pseudoneutrophil Cytokine Sponges Disrupt Myeloid Expansion and Tumor Trafficking to Improve Cancer Immunotherapy. Nano Letters, 2019, in press.

[2] Y. Ma,# Y. Zhang,# X. Li,# Y. Zhao, M. Li, W. Jiang, X. Tang, J. Dou, L. Lu, F. Wang,* Y. C. Wang.* Near-Infrared II Phototherapy Induces Deep Tissue Immunogenic Cell Death and Potentiates Cancer Immunotherapy. ACS Nano, 2019, 13, 11967-11980.

[3] Y. Ma,# Y. Zhao,# N. K. Bejjanki,# X. Tang, W. Jiang, J. Dou, M. I. Khan, Q. Wang, J. Xia, H. Liu, Y. You, G. Zhang, Y. C. Wang,* J. Wang. Nanoclustered Cascaded Enzymes for Targeted Tumor Starvation and Deoxygenation-Activated Chemotherapy without Systemic Toxicity. ACS Nano, 2019, 13, 8890-8902.

[4]  P. Chen,# Y. Ma,# Z. Zheng,# C. Wu, Y. C. Wang,* G. L. Liang,* Facile Syntheses of Conjugated Polymers for Photothermal Tumour Therapy. Nature Communications, 2019, 10:1192.

[5]  Y. Zhang,# Y. Zhao,# J. Shen,# X. Sun, Y. Liu, L. Hang, H. Liu, Y. C. Wang,* J. Wang  Nanoenabled Modulation of Acidic Tumor Microenvironment Reverses Anergy of Infiltrating T Cells and Potentiates Anti-PD-1 Therapy. Nano Letters, 2019, 19, 2774-2783.

[6] W. Jiang,# Z. Zhang,# Q. Wang,# J. Dou, Y. Zhao, Y. Ma, H. Liu, H. X. Xu,* Y. C. Wang.* Tumor Reoxygenation and Blood Perfusion Enhanced Photodynamic Therapy using Ultrathin Graphdiyne Oxide Nanosheets. Nano Letters, 2019, 19, 4060-4067.

[7]      Y. Liu,# N. K. Bejjanki,# W. Jiang, Y. Zhao, L. Wang, X. Sun, X. Tang, H. Liu,* Y. C. Wang.* Controlled Syntheses of Well-Defined Poly(thionophosphoester)s that Undergo Peroxide-Triggered Degradation. Macromolecules, 2019, 52, 4306-4316.

[8]      H. Wang, Y. Hou, Y. Hu, J. Dou, Y. Shen, Y. C. Wang,* H. Lu.* Enzyme-Activatable Interferon-Poly(α-amino acid) Conjugates for Tumor Microenvironment Potentiation. Biomacromolecules, 2019, 20, 3000-3008.

[9]      L Yang, X Chen, L Wang, Z Hu, N Xin, M Hippler, W Zhu, Y Hu, J Li, Y. C. Wang, L Zhang, D Wu, J Chu. Targeted Single-Cell Therapeutics with Magnetic Tubular Micromotor by One-Step Exposure of Structured Femtosecond Optical Vortices. Advanced Functional Materials, 2019, in press.

[10]   W. Huang, X. Zhang, B. Chen, H. Miao, C. O. Trindle, Y. C. Wang, Y. Luo, G. Zhang.* Boosting the Triplet Activity of Heavy-Atom-Free Difluoroboron Dibenzoylmethane via sp3 Oxygen-Bridged Electron Donors. Chemical Communications, 2019, 55, 67-70

[11] H. Huang, T. Wu, H. Shi, Y. Wu, H. Yang, K. Zhong, Y. C. Wang, Y. Liu.* Modular Design of Nanobody-Drug Conjugates for Targeted-Delivery of Platinum Anticancer Drug with MRI Contrast Agent. Chemical Communications, 2019, 55, 5175-5178.

[12] B. Chen, X. Zhang, Y. C. Wang, H. Miao, G. Zhang.* Aggregation-Induced Emission with Long-Lived Room-Temperature Phosphorescence from Methylene-Linked Organic Donor-Acceptor Structures, Chemistry-An Asian Journal, 2019, 14, 751-754.

2018

[13] W. Jiang,#Q. Li,# L. Xiao,# J. Dou, Y. Liu, W. Yu, Y. Ma, X. Li, Y. You, Z. Tong, H. Liu, H. Liang, L. Lu, X. Xu, Y. Yao,*G. Zhang,*Y. C. Wang,* J. Wang. Hierarchical Multiplexing Nanodroplets for Imaging-Guided Cancer Radiotherapy via DNA Damage Enhancement and Concomitant DNA Repair Prevention. ACS Nano, 2018, 12, 5684-5698. 

[14] X. Wang,# Y. Ma,# X. Sheng, Y. C. Wang,* H. Xu.* Ultrathin Polypyrrole Nanosheets via Space-Confined Synthesis for Efficient Photothermal Therapy in the Second Near-Infrared Window. Nano Letters, 2018, 18, 2217-2225. 

[15] W. Jiang,# Q. Li,# Z. Zhu,# Q. Wang, J. Dou, Y. Zhao, W. Lv, F. Zhong, Y. Yao, G. Zhang, H. Liu,*Y. C. Wang,* J. Wang. Cancer Chemoradiotherapy Duo: Nano-Enabled Targeting of DNA Lesion Formation and DNA Damage Response. ACS Applied Materials & Interfaces, 2018, 10, 35734-35744.

[16] Z. Ruan,# Y. Zhao,# P. Yuan, L. Liu, Y. C. Wang,* L. Yan.* PEG Conjugated BODIPY-Br2 as Macrophotosensitizer for Efficient Imaging-Guided Photodynamic Therapy. Journal of Materials Chemistry B, 2018, 6, 753-762.

[17] L. Huang, B. Chen, X. Zhang, C. Trindle, F. Liao, Y. C. Wang, H. Miao, Y. Luo, G. Zhang.* Proton-Activated Off-On Room-Temperature Phosphorescence from Purely Organic Thioethers. Angewandte Chemie International Edition, 2018, 57, 16046-16050.

[18] X. Du, J. Wang, S Iqbal, H. Li, Z. Cao, Y. C. Wang, J. Du, J Wang.* The Effect of Surface Charge on Oral Absorption of Polymeric Nanoparticles. Biomaterials Science, 2018, 6, 642-650.

[19] Z. Zhao,#J Long,#Y. Zhao, J. Yang, W Jiang, Q. Liu, K Yan, L Li, Y. C. Wang.* and Z. X. Lian.* Adaptive Immune Cells are Necessary for the Enhanced Therapeutic Effect of Sorafenib-Loaded Nanoparticles. Biomaterials Science,2018, 6, 893-900.

[20] W. Jiang, J. Wang, J. Yang, Z. He, G. Zhang, F. Huang, X. Zhou, L.F. Yan,* X. Z. Yang,*Y. C. Wang,* J. Wang. Acidity-Triggered TAT-Presenting Nanocarriers Augment Tumor Retention and Nuclear Translocation of Drugs. Nano Research,2018, 11, 5716-5734.

2017

[21] J. Yi,#Y. C. Wang, #,* Y. Jiang, I. Jung, W. Liu,  V. Andrade, R. Xu, R. Parameswaran, I. Peters, R. Divan, X. Xiao, T. Sun, Y. Lee, W. Park,* B. Tian.*3D Calcite Heterostructures for Dynamic and Deformable Mineralized Matrices. Nature Communications, 2017, 8:509.

[22] D. Li,# G. Zhang,# W. Xu,# J. Wang, Y. C. Wang,* L. Qiu, J. Ding,* X. Yang.* Investigating the Effect of Chemical Structure of Semiconducting Polymer Nanoparticle on Photothermal Therapy and Photoacoustic Imaging. Theranostics, 2017, 7, 4029-4040.

[23] J. Chen,# S. Li,# Y. Zhang, W. Wang,X. Zhang, Y. Zhao,Y. C. Wang,*H. Bi.*A Reloadable Self-Healing Hydrogel Enabling Diffusive Transport of C-Dots Across Gel-Gel Interface for Scavenging Reactive Oxygen Species. Advanced Healthcare Materials, 2017, 6, 1700746.

[24] Y. Xia, J. Shen, H. Alamri, N. Hadjichristidis, J. P. Zhao,*Y. C. Wang,* and G. Zhang. Revealing the Cytotoxicity of Residues of Phosphazene Catalysts Used for the Synthesis of Poly(ethylene oxide). Biomacromolecules, 2017, 18, 3233-3237.

[25]  S. Li,# F. Wang,#,* J. Chen, X. Zhang, Y. C. Wang,* J. Liu.* Dipole Orientation Matters: Longer-circulating Choline Phosphate than Phosphocholine Liposomes for Enhanced Tumor Targeting. ACS Applied Materials & Interfaces, 2017, 9, 17736-17744.

[26] Y. Zhu, C. Sun, S. Shen, M. I. U. Khan, Y. Zhao, Y. Liu, Y. C. Wang,* J. Wang. A Micellar Cisplatin Prodrug Simultaneously Eliminates both Cancer Cells and Cancer Stem Cells in Lung Cancer. Biomaterials Science, 2017, 5, 1612-1621 (Invited contribution as one of the Emerging Investigators in Biomaterials) 

[27] J. Chen, J. Ding,*Y. C. Wang, J. Cheng,* S. Ji, X. Zhuang, X. Chen.* Sequentially Responsive Shell-Stacked Nanoparticles for Deep Penetration into Solid Tumors. Advanced Materials, 2017, 29, 1701170.

[28] S. Shen,# H. Li,# K. Chen, Y. C. Wang, X Yang,Z Lian, J Du,* J. Wang.* Spatial Targeting of Tumor-Associated Macrophages and Tumor Cells with a pH-Sensitive Cluster Nanocarrier for Cancer Chemoimmunotherapy. Nano Letters, 2017, 17, 3822-3829.

[29] H Huang, H Shi, J Liu, Y Min, Y. C. Wang, A. Z. Wang, J. Wang and Y. Liu*. Co-Delivery of All-Trans-Retinoic Acid Enhances the Anti-Metastasis Effect of Albumin-Bound Paclitaxel Nanoparticles. Chemical Communications,2017, 53, 212-215.

[30] Y. Wang, K. Uetani, S. Liu, X. Zhang, Y. C. Wang, P. Lu, T. Wei, Z Fan, Jing Shen, H. Yu,* S. Li, Q. Zhang, Q. Li, J. Fan, N. Yang, Q. Wang, Y. Liu, J. Cao, J. Li, W. Chen.* Multifunctional Bionanocomposite Foams with a Chitosan Matrix Reinforced by Nanofibrillated Cellulose. ChemNanoMat, 2017, 3, 98-108.

[31] C. Wu, H. Chen, X Wu, X. Cong, L Wang, Y. C. Wang, Y. Yang, W. Li* and T. M. Sun.* The Influence of Tumor-Induced Immune Dysfunction on the Immune Cell Distribution of Gold Nanoparticles In Vivo. Biomaterials Science,2017, 5, 1531-1536.

2016

[32] M. Zhang*, S. Li, X. Yan, Z. Zhou, M. L. Saha, Y. C. Wang,* P. J. Stang.* Fluorescent Metallacycle-Cored Polymers via Covalent Linkage and Their Use as Contrast Agents for Cell Imaging. Proceedings of the National Academy of Science, 2016, 113, 11100-11105. 

[33] H. Wang, Z. Zuo, J. Du, Y. C. Wang,* R. Sun, Z. Cao, X. Ye, J. Wang, K. W. Leong,* J. Wang.* Surface Charge Critically Affects Tumor Penetration and Therapeutic Efficacy of Cancer Nanomedicines. Nano Today, 2016, 11, 133-144.

[34] Z. Cao, Z. Chen, C. Sun, H. Li, H. Wang, Q. Cheng, Z. Zuo, J. Wang, Y. Liu, Y. C. Wang,* J. Wang.* Overcoming Tumor Resistance to Cisplatin by Cationic Lipid-Assisted Prodrug Nanoparticles. Biomaterials, 2016, 94, 9-19.

[35] Y. Jiang#, J. C. Souza#, R. Wong#, Z. Luo, D. Isheim, X. Zuo, A. Nicholls, I. Jung, J. Yue, D. Liu, Y. C. Wang, V. De Andrade, X. Xiao, L. Navrazhnykh, D. Weiss, X. Wu, D. Seidman, F. Bezanilla,* B. Tian.*Heterogeneous Silicon Mesostructures for Lipid-Supported Bioelectric Interfaces.Nature Materials, 2016, 15, 1023-1030.

[36] J. Zimmerman, R. Parameswaran, G. Murray, Y. C. Wang, M. Burke, B. Tian.* Cellular Uptake and Dynamics of Unlabeled Free Standing Silicon Nanowires. Science Advances,2016, 2, e1601039.

[37] J. Wang, Y. Liu, Y. Ma, C. Sun, W. Tao, Y. C. Wang, X. Yang,* J. Wang. NIR-Activated Super-Sensitive Drug Release Using Nanoparticles with A Flow Core. Advanced Functional Materials, 2016, 26, 7516-7516. 

[38] Z. Zuo, K. Chen, X. Yu, G. Zhao, S. Shen, Z. Cao, Y. Luo, Y. C. Wang, J. Wang.* Promoting Tumor Penetration of Nanoparticles for Cancer Stem Cell Therapy by TGF-β Signaling Pathway Inhibition. Biomaterials, 2016, 82, 48-59.

[39] N. Zhou, L. Tian, Y. C. Wang, D. Li, P. Li, X. Zhang, H. Q. Yu.* Extracellular Biosynthesis of Copper SulfideNanoparticles by Shewanella Oneidensis MR-1 as aPhotothermal Agent. Enzyme and Microbial Technology, 2016, 95, 230-235. 

2015

[40] Z. Luo,# Y. Jiang,# B. Myers, D. Isheim, J. Wu, J. Zimmerman, Z. Wang, Q. Li, Y. C. Wang, X. Chen, V. P. Dravid, D. N. Seidman, B. Tian.* Atomic Gold–Enabled Three-Dimensional Lithography for Silicon Mesostructures. Science, 2015, 348, 1451-1455. 

[41] J. Zimmerman, M. Murray, Y. C. Wang, J. Jumper, J. Austin, B. Tian.* Free-Standing Kinked Silicon Nanowires for Probing Inter-and Intracellular Force Dynamics. Nano Letters, 2015, 15, 5492-5498. 

2014

[42] Y. C. Wang,# M. S. Shim,# N. S. Levinson, H-W. Sung, Y. Xia.*Stimuli-Responsive Materials for Controlled Release of Theranostic Agents. Advanced Functional Materials, 2014, 24, 4206-4220.

[43] K. C. L. Black,#Y. C. Wang,# H. P. Luehmann, X. Cai, W. X. Xing, B. Pang, Y. F. Zhao, C. S. Cutler, L. V. Wang, Y. Liu,* Y. Xia.* Radioactive 198Au-Doped Nanostructures with Different Shapes for in vivo Analyses of Their Biodistribution, Tumor Uptake, and Intratumoral Distribution.ACS Nano, 2014, 8, 4385-4394. 

[44] T. Sun,#Y. C. Wang,# F. Wang, J. Du, C. Mao, C. Sun, R. Tang, Y. Liu, J. Zhu, Y.. Zhu, X. Yang, J. Wang.* Cancer Stem Cell Therapy Using Doxorubicin Conjugated to Gold Nanoparticles via Hydrazone Bonds. Biomaterials, 2014, 35, 836-845.

[45] T. Sun, Y. Wang, Y. C. Wang, Y. Xia.* Using SV119-Gold Nanocage Conjugates to Eradicate Cancer Stem Cells through a Combination of Photothermal and Chemo Therapies. Advanced Healthcare Materials, 2014, 3, 1283-1291. 

2013

[46] Y. C. Wang, Y. Liu,* H. Luehamn, X. Xia, D. Wan, C. Cutler, Y. Xia.* Radioluminescent Gold Nanocages with Controlled Radioactivity for Real-Time in Vivo Imaging. Nano Letters, 2013, 13, 581-585.

[47] Y. C. Wang,# K. C. L. Black,# H. Luehmann, W. Li, Y. Zhang, X. Cai, D. Wan, S. Liu, M. Li, P. Kim, Z. Li, L. V. Wang, Y. Liu,* Y. Xia.*Comparison Study of Gold Nanohexapods, Nanorods, and Nanocages for Photothermal Cancer Treatment. ACS Nano, 2013, 7, 2068-2077.

[48] D. Wan, X. Xia, Y. C. Wang, Y. Xia.*Robust Synthesis of Gold Cubic Nanoframes through a Combination of Galvanic Replacement, Gold Deposition, and Silver Dealloying. Small, 2013, 9, 3111-7

[49] W. Li, C. Sun, F. Wang, Y. C. Wang, Y. Zhai, M. Liang, W. Liu, Z. Liu, J. Wang,* F. Sun.* Achieving a New Controllable Male Contraception by the Photothermal Effect of Gold Nanorods. Nano Letters,2013, 13, 2477-2484.

[50] K. J. Chen, H. Liang, H. Chen; Y. C. Wang; P. Cheng; Liu, H. L. Liu; Y. Xia,* H. W. Sung.*A Thermoresponsive Bubble-Generating Liposomal System for Triggering Localized Extracellular Drug Delivery.ACS Nano, 2013, 7, 438-446.

[51] Y. Zhang, Y. Wang, L. Wang, Y. C.Wang, X. Cai, C. Zhang, L. V. Wang, Y. Xia.*Labeling Human Mesenchymal Stem Cells with Au Nanocages for in vitro and in vivo Tracking by Two-Photon Microscopy and Photoacoustic Microscopy. Theranostics, 2013, 3, 532-543.

[52] W. Li, F. Wang, Z. Liu, Y. C. Wang, J. Wang,* F. Sun.*Gold Nanoparticles Elevate Plasma Testosterone Levels in Male Mice without Affecting Fertility. Small, 2013, 9, 1708-1714.

[53] H. Wang, M. Xiong, Y. C. Wang,J. Zhu. J. Wang.* N-Acetylgalactosamine Functionalized Mixed Micellar Nanoparticles for Targeted Delivery of siRNA to Liver.Journal of Controlled Release, 2013, 166, 106-114.

[54] J. Wu, T. Sun, X. Yang, J. Zhu, X. Du, Y. Yao, M. Xiong, H. Wang, Y. C. Wang, J. Wang.*Enhanced Drug Delivery to Hepatocellular Carcinoma with a Galactosylated Core–Shell Polyphosphoester Nanogel. Biomaterial Sciences, 2013, 1, 1143-1150. 

2012

[55]  Y. C. Wang, Y. Liu,* H. Luehmann, X. Xia, P. Brown, C. Jarreau, M. Welch, Y. Xia.* Evaluating the Pharmacokinetics and In Vivo Cancer Targeting Capability of Au Nanocages by Positron Emission Tomography Imaging. ACS Nano, 2012, 6, 5880-5888.

[56]  Y. C. Wang, Y. Wang, F. Zhou, P. Kim, Y. Xia.* Protein-Protected Au Clusters as a New Class of Nanoscale Biosensor for Label-Free Fluorescence Detection of Proteases. Small, 2012, 8, 3769-3773.

[57]   S. Xie, M. Jin, J. Tao, Y. C. Wang, Z. Xie, Y. Zhu, Y. Xia.*Synthesis and Characterization of Pd@MxCu1-x (M=Au, Pd, and Pt) Nanocages with Porous Walls and a Yolk-Shell Structure through Galvanic Replacement Reactions. Chemistry of Materials, 2012, 18, 14974-14980.

[58]  X. Xia, M. Yang, Y. C. Wang, Y. Zheng, Q. Li, J. Cheng,* Y. Xia.* Quantifying the Coverage Density of Poly(ethylene glycol) Chains on the Surface of Gold Nanostructures. ACS Nano,2012, 6, 512-522.

[59]  X. Yang, S. Dou, Y. C. Wang, H. Long, M. Xiong, C. Mao, Y. Yao. J. Wang.* Single-Step Assembly of Cationic Lipid-Polymer Hybrid Nanoparticles for Systemic Delivery of siRNA. ACS Nano, 2012, 6, 4955-4965.

[60]  M. Xiong, Y. Bao, X. Yang, Y. C. Wang, B. Sun,* J. Wang.* Lipase-Sensitive Polymeric Triple-Layered Nanogel for On-Demand Drug Delivery. Journal of the American Chemical Society, 2012, 134, 4355-4362. 

2011

[61]  Y. C. Wang, P. Brown, Y. Xia.* Swarming to the Target. Nature Materials, 2011, 10, 482-483

[62]  Y. C. Wang, J. Xu, X. Xia, M. Yang, S. Vangverarong, J. Chen, R. H. Mach, Y. Xia.* SV119-Gold Nanocage Conjugates: a New Platform for Targeting Cancer Cells via Sigma-2 Receptors. Nanoscale, 2011, 4, 421-424.

[63]  Y. C. Wang,#F. Wang,# T. Sun, J. Wang.*Redox-Responsive Nanoparticles from the Single Disulfide Bond-Bridged Block Copolymer as Drug Carriers for Overcoming Multi-Drug Resistance in Cancer Cells. Bioconjugate Chemistry, 2011, 22, 1939-1945 (Most Accessed Articles in Oct. 2011)

[64]  F. Wang,# Y. C. Wang,# S. Dou, M. Xiong, T. Sun, J. Wang.*Doxorubicin-Tethered Responsive Gold Nanoparticles Facilitate Intracellular Drug Delivery for Overcoming Multidrug Resistance in Cancer Cells. ACS Nano, 2011, 5, 3679-3692.

[65]  P. Rujitanaroj, Y. C. Wang, J. Wang,and C. S. Yian.* Nanofiber-Mediated Controlled Release of siRNA Complexes for Long Term Gene-Silencing Applications. Biomaterials, 2011, 32, 5915-5923.

2010

[66]  Y. C. Wang, J. Wu, Y. Li, J. Du, Y. Yuan, J. Wang.* Engineering Nanoscopic Hydrogels via Photo-Crosslinking Salt-Induced Polymer Assembly for Targeted Drug Delivery. Chemical Communications, 2010, 46, 3520-3522.

[67] P. Zhang, L. Hu, Y. C. Wang, J. Wang, L. Feng, Y. P. Li.* Poly(ε-caprolactone)-block-Poly(ethyl Ethylene Phosphate) Micelles for Brain-Targeting Drug Delivery: In Vitro and In Vivo Evaluation. Pharmaceutical Research, 2010, 27, 2657-2669.

[68]  Y. C. Wang, Y. Li, T. Sun, M. Xiong, J. Wu, Y. Yang, J. Wang.* Core-Shell-Corona Micelle Stabilized by Reversible Cross-Linkage for Intracellular Drug Delivery. Macromolecular Rapid Communications, 2010, 31, 1201-1206.

[69]  Y. C. Wang,Y. Yuan, F. Wang, J. Wang.*Syntheses and Characterization of Block Copolymers of Poly(aliphatic ester) with Clickable Polyphosphoester. Journal of Polymer Science Part A: Polymer Chemistry, 2011, 49, 487-494.

[70] Y. Yuan, Q. Du, Y. C. Wang, J. Wang.*One-Pot Syntheses of Amphiphilic Centipede-Like Brush Copolymers via Combination of Ring-Opening Polymerization and “Click” Chemistry. Macromolecules, 2010, 43, 1739-1746.

2009

[71] L. Tang, Y. C. Wang,* Y. Li, J. Du, J. Wang*. Shell-Detachable Micelles Based on Disulfide-Linked Block Copolymer as Potential Carrier for Intracellular Drug Delivery. Bioconjugate Chemistry, 2009, 20, 1095-1099.

[72] X. Yang, T. Sun, S. Dou, J. Wu, Y. C. Wang, J. Wang.*Block Copolymer of Polyphosphoester and Poly(L-lactic Acid) Modified Surface for Enhancing Osteoblast Adhesion, Proliferation, and Function. Biomacromolecules, 2009, 10, 2213-2220.

[73] Y. C. Wang, Y. Yuan , J. Du, X. Yang, J. Wang.*Recent Progress in Polyphosphoesters: From Controlled Synthesis to Biomedical Applications. Macromolecular Bioscience, 2009, 9, 1154-1164. (Invited Feature Article)

[74] Y. C. Wang, Y. Li, X. Yang, Y. Yuan, L. Yan, J. Wang.*Tunable Thermosensitivity of Biodegradable Polymer Micelles of Poly(ε-caprolactone) and Polyphosphoester Block Copolymers. Macromolecules, 2009, 42, 3026-3032.

[75] Y. C. Wang, L. Tang, J. Wang.* Thermoresponsive Block Copolymers of Poly(ethylene glycol) and Polyphosphoester: Thermo-Induced Self-Assembly, Biocompatibility and Hydrolytic Degradation. Biomacromolecules, 2009, 10, 66-73.

[76]  Y. C. Wang, H. Xia, X. Z. Yang, J. Wang.* Synthesis and Thermoresponsive Behaviors of Biodegradable Pluronic Analogs. Journal of Polymer Science Part A: Polymer Chemistry, 2009, 47, 6168-6179.

[77]  F. Wang, Y. C. Wang, L. Yan, J. Wang.*Biodegradable Vesicular Nanoparticles Based on Block Copolymer of Poly(e-caprolactone) and Poly(ethyl ethylene phosphate) for Drug Delivery. Polymer, 2009, 50, 5048-5054.

[78]  J. Wu, X. Liu, Y. C. Wang, J. Wang.*Template-Free Synthesis of Biodegradable Nanogels with Tunable Sizes as Potential Carriers for Drug Delivery. Journal of Materials Chemistry, 2009, 19, 7856-7863.

[79] Y.Yuan, X. Liu, Y. C. Wang, J. Wang.* Gold Nanoparticles Stabilized by Thermosensitive Diblock Copolymers of Poly(ethylene glycol) and Polyphosphoester. Langmuir, 2009, 25, 10298-10304.

[80]  M. Xiong, J. Wu, Y. C. Wang, L. Li, X. Liu, G. Zhang, L. Yan, J. Wang.* Synthesis of PEG-Armed and Polyphosphoester Core-Cross-Linked Nanogel by One-Step Ring-Opening Polymerization. Macromolecules, 2009, 42, 893-896.

2008

[81] J. Cheng, J. Ding, Y. C. Wang, J. Wang.* Synthesis and Characterization of Star-Shaped Block Copolymer of Poly(e-caprolactone) and Poly(ethyl ethylene phosphate) as Drug Carrier. Polymer, 2008, 49, 4784-4790.

[82] Y. C. Wang, L. Tang, T. Sun, C. Li, M. Xiong, J. Wang.* Self-assembled Micelles of Biodegradable Triblock Copolymers Based on Poly(ethyl ethylene phosphate) and Poly(e-caprolactone) as Drug Carriers. Biomacromolecules, 2008, 9, 388-395.

[83] Y. C. Wang, X. Liu, T. Sun, M. Xiong, J. Wang.*Functionalized Micelles from Polyphosphoester and Poly(e-caprolactone) Block Copolymer for Receptor-Mediated Drug Delivery. Journal of Controlled Release, 2008, 128, 32-40.

[84] Y. Yuan, Y. C. Wang, J. Du, J. Wang.*Synthesis of Amphiphilic ABC 3-Miktoarm Star Terpolymer by Combination of Ring Opening Polymerization and “Click” Chemistry.Macromolecules, 2008, 41, 8620-8625.

[85] X. Yang, Y. C. Wang, L. Tang, H. Xia, J. Wang.* Synthesis and Characterization of Amphiphilic Block Copolymer of Polyphosphoester and Poly(L-lactic acid). Journal of Polymer Science Part A: Polymer Chemistry, 2008, 46, 6425-6434.

2006

[86] Y. C. Wang, S. Shen, Q. Wu, D. Chen, J. Wang.* Gustav Steinhoff, Nan Ma. Block Copolymerization of ε-Caprolactone and 2-Methoxyethyl Ethylene Phosphate Initiated by Aluminum Isopropoxide: Synthesis, Characterization, and Kinetics. Macromolecules, 2006, 39, 8992-8998.

[87] C. Xiao, Y. C. Wang, J. Du, X. Chen, J. Wang.*Kinetics and Mechanism of 2-Ethoxy-2-oxo-1,3,2-dioxaphospholane Polymerization Initiated by Stannous Octoate. Macromolecules, 2006, 39, 6825-6831.

[88] J. Du, D. Chen, Y. C. Wang, C. Xiao, Y. Lu, J. Wang,* G. Zhang. Synthesis and Micellization of Amphiphilic Brush-Coil Block Copolymer Based on Poly(ε-caprolactone) and PEGylated Polyphosphoester. Biomacromolecules, 2006, 7, 1898-1963.