• ​骨科生物材料
  
• 生物材料表面改性

招收生物材料及相关领域研究生

2014-09--2017-10   香港城市大学   博士研究生

   

2023-01~现在, 中科院深圳先进技术研究院, 副研究员
2019-10~2022-12,中科院深圳先进技术研究院, 助理研究员
2017-08~2019-10,中科院深圳先进技术研究院, 博士后

   

[1] 王怀雨, 徐瑶瑶, 高昂. 一种药物共递送可降解多孔微球及其制备方法和应用. CN202310414938.7, 2023-04-18.
[2] 王怀雨, 梁嘉琪, 童丽萍, 高昂. 具有双重抗菌功效的可降解伤口敷料及其制备方法和应用. CN202310049722.5, 2023-02-01.
[3] 王怀雨, 吕原亮, 莫师, 高昂. 一种在固体基材表面制备无序分散微球模板的方法及应用. CN202310049721.0, 2023-02-01.
[4] 高昂, 赵飞龙, 王怀雨. 一种氧化锌/磷酸锌纳米棒复合抗菌涂层及其制备方法和应用. CN202211191672.6, 2022-09-28.
[5] 莫师, 王怀雨, 童丽萍, 高昂, 朱剑豪. 兼具抗菌与促成骨的高分子植入材料及其制备方法. CN202211078013.1, 2022-09-05.
[6] 王怀雨, 高昂, 郑延延, 童丽萍. 一种可顺序释放生物活性因子的骨科植入材料的制备方法及其产品和用途. CN: CN113769167A, 2021-12-10.
[7] 王怀雨, 高昂, 朱剑豪. 一种高分子材料表面改性方法及其产品和用途. CN: CN107189096A, 2017-09-22.

[1] Feilong Zhao#, Ang Gao#, Qing Liao, Yanyue Li, Ihsan Ullah, Ya Zhao, Xiaoxue Ren, Liping Tong*, Xin Li*, Yudong Zheng, Paul K. Chu, Huaiyu Wang*, Balancing the Anti-Bacterial and Pro-Osteogenic Properties of Ti-Based Implants by Partial Conversion of ZnO Nanorods into Hybrid Zinc Phosphate Nanostructures, Advanced Functional Materials (2024) 2311812.

[2] Yaoyao Xu, Yanyue Li, Ang Gao*, Paul K. Chu*, Huaiyu Wang*, Gasotransmitter delivery for bone diseases and regeneration, The Innovation Life 1 (2023) 100015.

[3] Yanyan Zheng#, Ang Gao#, Jiaxiang Bai#, Qing Liao, Yuzheng Wu, Wei Zhang, Min Guan, Liping Tong, Dechun Geng, Xin Zhao, Paul K. Chu, Huaiyu Wang, A programmed surface on polyetheretherketone for sequentially dictating osteoimmunomodulation and bone regeneration to achieve ameliorative osseointegration under osteoporotic conditions, Bioactive Materials 14 (2022) 364–376.

[4] Shi Mo#, Feilong Zhao#, Ang Gao#, Yuzheng Wu, Qing Liao, Lingxia Xie, Haobo Pan, Liping Tong, Paul K. Chu, Huaiyu Wang, Simultaneous application of diamond-like carbon coating and surface amination on polyether ether ketone: Towards superior mechanical performance and osseointegration, Smart Materials in Medicine 2 (2021) 219–228.

[5] Ang Gao, Qing Liao, Lingxia Xie, Guomin Wang, Wei Zhang, Yuzheng Wu, Penghui Li, Min Guan, Haobo Pan, Liping Tong, Paul K. Chu, Huaiyu Wang, Tuning the surface immunomodulatory functions of polyetheretherketone for enhanced osseointegration, Biomaterials 230 (2020) 119642.

[6] Ang Gao, Ruiqiang Hang, Long Bai, Bin Tang, Paul K. Chu, Electrochemical surface engineering of titanium-based alloys for biomedical application, Electrochimica Acta 271 (2018) 699–718.

[7] Ang Gao, Ruiqiang Hang, Wan Li, Wei Zhang, Penghui Li, Guomin Wang, Long Bai, Xue-Feng Yu, Huaiyu Wang, Liping Tong, Paul K. Chu, Linker-free covalent immobilization of heparin, SDF-1α, and CD47 on PTFE surface for antithrombogenicity, endothelialization and anti-inflammation, Biomaterials 140 (2017) 201–211.

[8] Ang Gao, Ruiqiang Hang, Paul K. Chu, Recent advances in anti-infection surfaces fabricated on biomedical implants by plasma-based technology, Surface and Coatings Technology 312 (2017) 2–6.

[9] Ang Gao, Xuming Zhang, Xiang Peng, Hao Wu, Long Bai, Weihong Jin, Guosong Wu, Ruiqiang Hang, Paul K. Chu, In situ synthesis of Ni (OH)₂/TiO₂ composite film on NiTi alloy for non-enzymatic glucose sensing, Sensors and Actuators B: Chemical 232 (2016) 150–157.

[10] Ang Gao, Ruiqiang Hang, Xiaobo Huang, Lingzhou Zhao, Xiangyu Zhang, Lin Wang, Bin Tang, Shengli Ma, Paul K. Chu, The effects of titania nanotubes with embedded silver oxide nanoparticles on bacteria and osteoblasts, Biomaterials 35(13) (2014) 4223–4235.

[11] Shi Mo, Kaiwei Tang, Qing Liao, Lingxia Xie, Yuzheng Wu, Guomin Wang, Qingdong Ruan, Ang Gao, Yuanliang Lv, Kaiyong Cai, others, Tuning the arrangement of lamellar nanostructures: achieving the dual function of physically killing bacteria and promoting osteogenesis, Materials Horizons 10(3) (2023) 881–888.

[12] Xu Chen, Xinrui Li, Wenbo He, Miao Wang, Ang Gao, Liping Tong, Shun Guo, Huaiyu Wang, Guoqing Pan, Rational multivalency construction enables bactericidal effect amplification and dynamic biomaterial design, The Innovation  (2023).

[13] Meng Li, Jiaxiang Bai, Huaqiang Tao, Li Hao, Weiling Yin, Xiaoxue Ren, Ang Gao, Ning Li, Miao Wang, Shiyuan Fang, others, Rational integration of defense and repair synergy on PEEK osteoimplants via biomimetic peptide clicking strategy, Bioactive Materials 8 (2022) 309–324.

[14] Junfeng Chen, Lingxia Xie, Qingdong Ruan, Ang Gao, Qing Liao, Shi Mo, Yuanliang Lv, Liping Tong, Huaiyu Wang, Paul K Chu, others, Diamond-like carbon coating and surface grafting of osteoprotegerin and alendronate on polyetheretherketone to ameliorate the mechanical performance and osseointegration simultaneously, Composites Part B: Engineering 236 (2022) 109815.

[15] Nan Hu, Lingxia Xie, Qing Liao, Ang Gao, Yanyan Zheng, Haobo Pan, Liping Tong, Dazhi Yang, Nong Gao, Marco J Starink, others, A more defective substrate leads to a less defective passive layer: Enhancing the mechanical strength, corrosion resistance and anti-inflammatory response of the low-modulus Ti-45Nb alloy by grain refinement, Acta Biomaterialia 126 (2021) 524–536.

[16] Saud Khalid, Ang Gao, Guomin Wang, Paul K Chu, Huaiyu Wang, Tuning surface topographies on biomaterials to control bacterial infection, Biomaterials Science 8(24) (2020) 6840–6857.

[17] Jiaxiang Bai, Huaiyu Wang, Hao Chen, Gaoran Ge, Miao Wang, Ang Gao, Liping Tong, Yaozeng Xu, Huiling Yang, Guoqing Pan, others, Biomimetic osteogenic peptide with mussel adhesion and osteoimmunomodulatory functions to ameliorate interfacial osseointegration under chronic inflammation, Biomaterials 255 (2020) 120197.

[18] Liping Tong, Qing Liao, Yuetao Zhao, Hao Huang, Ang Gao, Wei Zhang, Xiaoyong Gao, Wei Wei, Min Guan, Paul K Chu, others, Near-infrared light control of bone regeneration with biodegradable photothermal osteoimplant, Biomaterials 193 (2019) 1–11.

[19] Nan Hu, Tao Hu, Ang Gao, Nong Gao, Marco J Starink, Ying Chen, Wanting Sun, Qing Liao, Liping Tong, Xiaochang Xu, others, TiO₂ nanotube layers: homogeneous anodic TiO₂ nanotube layers on Ti–6Al–4V alloy with improved adhesion strength and corrosion resistance, Advanced Materials Interfaces 6(12) (2019) 1970074.

[20] Nan Hu, Tao Hu, Ang Gao, Nong Gao, Marco J Starink, Ying Chen, Wanting Sun, Qing Liao, Liping Tong, Xiaochang Xu, others, Homogeneous anodic TiO₂ nanotube layers on Ti–6Al–4V alloy with improved adhesion strength and corrosion resistance, Advanced Materials Interfaces 6(12) (2019) 1801964.

[21] Guomin Wang, Hongqing Feng, Liangsheng Hu, Weihong Jin, Qi Hao, Ang Gao, Xiang Peng, Wan Li, Kwok-Yin Wong, Huaiyu Wang, others, An antibacterial platform based on capacitive carbon-doped TiO₂ nanotubes after direct or alternating current charging, Nature Communications 9(1) (2018) 2055.

[22] Hao Wu, Yu Yu, Wenyu Gao, Ang Gao, Abdul Mateen Qasim, Fan Zhang, Junzhong Wang, Kejian Ding, Guosong Wu, Paul K Chu, Nickel plasma modification of graphene for high-performance non-enzymatic glucose sensing, Sensors and Actuators B: Chemical 251 (2017) 842–850.

[23] Guomin Wang, Weihong Jin, Abdul Mateen Qasim, Ang Gao, Xiang Peng, Wan Li, Hongqing Feng, Paul K Chu, Antibacterial effects of titanium embedded with silver nanoparticles based on electron-transfer-induced reactive oxygen species, Biomaterials 124 (2017) 25–34.

[24] Guomin Wang, Hongqing Feng, Weihong Jin, Ang Gao, Xiang Peng, Wan Li, Hao Wu, Zhou Li, Paul K Chu, Long-term antibacterial characteristics and cytocompatibility of titania nanotubes loaded with Au nanoparticles without photocatalytic effects, Applied Surface Science 414 (2017) 230–237.

[25] Yanlian Liu, Zhiguo Ren, Long Bai, Mingxiang Zong, Ang Gao, Ruiqiang Hang, Husheng Jia, Bin Tang, Paul K Chu, Relationship between Ni release and cytocompatibility of Ni-Ti-O nanotubes prepared on biomedical NiTi alloy, Corrosion Science 123 (2017) 209–216.

[26] Ruiqiang Hang, Ya Zhao, Long Bai, Yanlian Liu, Ang Gao, Xiangyu Zhang, Xiaobo Huang, Bin Tang, Paul K Chu, Fabrication of irregular-layer-free and diameter-tunable Ni–Ti–O nanopores by anodization of NiTi alloy, Electrochemistry Communications 76 (2017) 10–14.

[27] Ruiqiang Hang, Yanlian Liu, Ang Gao, Mingxiang Zong, Long Bai, Xiangyu Zhang, Xiaobo Huang, Bin Tang, Paul K Chu, Fabrication of Ni-Ti-O nanoporous film on NiTi alloy in ethylene glycol containing NaCl, Surface and Coatings Technology 321 (2017) 136–145.

[28] Ruiqiang Hang, Ang Gao, Long Bai, Paul K Chu, Titania nanotubes as silver nanoparticle carriers to prevent implant-associated infection, Silver Nanoparticles for Antibacterial Devices  (2017) 85–110.

[29] Yi Chen, Ang Gao, Long Bai, Yueyue Wang, Xin Wang, Xiangyu Zhang, Xiaobo Huang, Ruiqiang Hang, Bin Tang, Paul K Chu, Antibacterial, osteogenic, and angiogenic activities of SrTiO₃ nanotubes embedded with Ag₂O nanoparticles, Materials Science and Engineering: C 75 (2017) 1049–1058.

[30] Ming Zhang, Ang Gao, Shengli Ma, Kewei Xu, Paul K Chu, Corrosion resistance of Ti-Si-N coatings in blood and cytocompatibility with vascular endothelial cells, Vacuum 128 (2016) 45–55.

[31] Guomin Wang, Hongqing Feng, Ang Gao, Qi Hao, Weihong Jin, Xiang Peng, Wan Li, Guosong Wu, Paul K Chu, Extracellular electron transfer from aerobic bacteria to Au-loaded TiO₂ semiconductor without light: a new bacteria-killing mechanism other than localized surface plasmon resonance or microbial fuel cells, ACS Applied Materials & Interfaces 8(37) (2016) 24509–24516.

[32] Xiang Peng, Wan Li, Lei Wang, Liangsheng Hu, Weihong Jin, Ang Gao, Xuming Zhang, Kaifu Huo, Paul K Chu, Lithiation kinetics in high-performance porous vanadium nitride nanosheet anode, Electrochimica Acta 214 (2016) 201–207.

[33] Weihong Jin, Guosong Wu, Ang Gao, Hongqing Feng, Xiang Peng, Paul K Chu, Hafnium-implanted WE43 magnesium alloy for enhanced corrosion protection and biocompatibility, Surface and Coatings Technology 306 (2016) 11–15.

[34] Ruiqiang Hang, Mingxiang Zong, Long Bai, Ang Gao, Yanlian Liu, Xiangyu Zhang, Xiaobo Huang, Bin Tang, Paul K Chu, Anodic growth of ultra-long Ni-Ti-O nanopores, Electrochemistry Communications 71 (2016) 28–32.

[35] Ruiqiang Hang, Yanlian Liu, Si Liu, Long Bai, Ang Gao, Xiangyu Zhang, Xiaobo Huang, Bin Tang, Paul K Chu, Size-dependent corrosion behavior and cytocompatibility of Ni–Ti–O nanotubes prepared by anodization of biomedical NiTi alloy, Corrosion Science 103 (2016) 173–180.

[36] Hongqing Feng, Guomin Wang, Weihong Jin, Xuming Zhang, Yifan Huang, Ang Gao, Hao Wu, Guosong Wu, Paul K Chu, Systematic study of inherent antibacterial properties of magnesium-based biomaterials, ACS Applied Materials & Interfaces 8(15) (2016) 9662–9673.

[37] Ruiqiang Hang, Yanlian Liu, Ang Gao, Long Bai, Xiaobo Huang, Xiangyu Zhang, Naiming Lin, Bin Tang, Paul K Chu, Highly ordered Ni–Ti–O nanotubes for non-enzymatic glucose detection, Materials Science and Engineering: C 51 (2015) 37–42.

[38] Long Bai, Ruiqiang Hang, Ang Gao, Xiangyu Zhang, Xiaobo Huang, Yueyue Wang, Bin Tang, Lingzhou Zhao, Paul K Chu, Nanostructured titanium–silver coatings with good antibacterial activity and cytocompatibility fabricated by one-step magnetron sputtering, Applied Surface Science 355 (2015) 32–44.

[39] Ruiqiang Hang, Yanlian Liu, Lingzhou Zhao, Ang Gao, Long Bai, Xiaobo Huang, Xiangyu Zhang, Bin Tang, Paul K Chu, Fabrication of Ni-Ti-O nanotube arrays by anodization of NiTi alloy and their potential applications, Scientific Reports 4(1) (2014) 7547.

[40] Ruiqiang Hang, Ang Gao, Xiaobo Huang, Xiaoguang Wang, Xiangyu Zhang, Lin Qin, Bin Tang, Antibacterial activity and cytocompatibility of Cu–Ti–O nanotubes, Journal of Biomedical Materials Research Part A 102(6) (2014) 1850-1858.