韩颖超

发布时间:2021.04.29 09:28


姓 名

韩颖超

性 别

民 族

出生年月

1977.4       

职 称

研究员

职 务

无     

联系电话

18986218516

单位名称

新材料研究所

Email

hanyingchao@whut.edu.cn

实验室网址


研究方向

纳米生物材料;

有机/无机医用复合材料;

纳米药物可控释放系统;

教育背景

1996.09-2000.06,武汉理工大学,获工学学士学位;

2000.09-2002.06,武汉理工大学,获工学硕士学位;

2004.09-2007.12,武汉理工大学,获工学博士学位;

工作经历

2002.7-2004.10,武汉理工大学,生物材料与工程研究中心,研究实习员;

2004.11-2009.8,武汉理工大学,生物材料与工程研究中心,助理研究员;

2009.9-2017.8,武汉理工大学,材料复合新技术国家重点实验室/生物材料与工程研究中心,副研究员;

2010.6-2012.6,美国内布拉斯加大学医学中心,博士后。

2017.9至今,武汉理工大学,材料复合新技术国家重点实验室,研究员;

项目情况

1.科技部国家重点研发计划项目:适用于骨与关节个性化植入假体增材制造生物医用材料的研制;

2.国家自然科学基金面上项目:稀土掺杂纳米磷灰石肿瘤显影剂的荧光协同增强与体内代谢;

3.科技部国际科技合作项目:可降解有机-无机纳米复合医用药膜技术联合研究与示范;

代表性学术
成果

  1. Dong Yan, Bin Zeng, Yingchao Han, Honglian Dai, Jie Liu, Yunlong Sun, Feng Li. Preparation and laser powder bed fusion of composite microspheres consisting of poly(lactic acid) and nano-hydroxyapatite. Additive Manufacturing, 2020, 34:101305.

  2. H. M. C. Suboda Wijerathne, Dong Yan, Bin Zeng, Yanping Xie, Hongchao Hu, M. Nirmali Wickramaratne, Yingchao Han. Effect of nano‑hydroxyapatite on protein adsorption and cell adhesion of poly(lactic acid)/nano‑hydroxyapatite composite microspheres. SN Applied Sciences, 2020, 2:722.

  3. Xiaojun Zhang, Qingguo Xing, Lixuan Liao and Yingchao Han. Effect of the Fluorine Substitution for –OH Group on the Luminescence Property of Eu3+ Doped Hydroxyapatite. Crystals 2020, 10: 191.

  4. Hongyan Bi, Tianyi Feng, Binbin Li, Yingchao Han. In Vitro and In Vivo Comparison Study of Electrospun PLA and PLA/PVA/SA Fiber Membranes for Wound Healing. Polymers, 2020, 12: 839.

  5. Qingguo Xing, Xiaojun Zhang, Dulan Wu, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Ultrasound-Assisted Synthesis and Characterization of Heparin-Coated Eu3+ Doped Hydroxyapatite Luminescent Nanoparticles. Colloid and Interface Science Communications 29 (2019) 17–25

  6. Peilong Ni, Hongyan Bi, Gang Zhao, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Electrospun preparation and biological properties in vitro of polyvinyl alcohol/sodium alginate/nano-hydroxyapatite composite fiber membrane. Colloids and Surfaces B: Biointerfaces 173 (2019) 171–177

  7. Dong Yan, Yuxin Lou, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Controllable synthesis of poly(acrylic acid)-stabilized nanohydroxyapatite suspension by an ultrasound-assisted precipitation method. Materials Letters, 2018, 227:9–12

  8. Yunfei Xie, Wangmei He, Fang Li, Thalagalage Shalika Harshani Perera, Lin Gan, Yingchao Han, Xinyu Wang, Shipu Li, Honglian Dai. Luminescence Enhanced Eu3+/Gd3+ Co-Doped Hydroxyapatite Nanocrystals as Imaging Agents In Vitro and In Vivo. ACS Applied Materials & Interfaces, 2016, 8 (16)10212–10219.

  9. Fang Li, Qingguo Xing, Yingchao Han, Yue Li, Wei Wang, Thalagalage Shalika Harshani Perera, Honglian Dai. Ultrasonically assisted preparation of poly(acrylic acid)/calcium phosphate hybrid nanogels as pH-responsive drug carriers. Materials Science and Engineering C, 2017, 80: 688-697

  10. Wangmei He, Yunfei Xie, Qingguo Xing, Peilong Ni, Yingchao Han, Honglian Dai. Sol-gel synthesis of biocompatible Eu3+/Gd3+ co-doped calcium phosphate nanocrystals for cell bioimaging. Journal of Luminescence, 2017,192: 902–909


附件一:导师信息模板(英文版)


Prof. Yingchao Han

Address:7th floor, YIFU Building, Wuhan University of Technology

Emailhanyingchao@whut.edu.cn             Tel: 18986218516


RESEARCH AREA AND INTERESTS

1. Bioceramic and biomedical inorganic nanomaterials

  1.1 Fabrication of hydroxyapatite (HAP) powders and bioceramics;

  1.2 Adsorption properties of HAP nanoparticles to biomolecules (such as serum albumin, heparin and salic acid) and the interaction of HAP nanoparticles with cells;

  1.3 Preparation and application of rare earth doped HAP nanoparticles as bioimaging agent.

  1.4 Application of HAP nanoparticles as drug or gene carriers

2. Organic/inorganic nanocomposite for biomedical application

  2.1 Fabrication of nanocomposites of polymers and nano calcium phosphate.

  2.2 Application of biomedical composites for tissue regeneration

3. Drug delivery nano-carrier system and drug formulation

  3.1 Preparation of anti-cancer drug loading amphiphilic block micelles formulation;

  3.2 Synergistic effects study between multiple anti-cancer drugs

EDUCATION

1996.09-2000.06, Bachelor Degree, Wuhan University of Technology, China

2000.09-2002.06, Master Degree, Wuhan University of Technology, China

2004.09-2007.12, Doctor Degree, Wuhan University of Technology, China

WORK EXPERIENCE

2002.07-2004.10, Researcher Assistant, Wuhan University of Technology, China

2004.11-2009.08, Assistant Researcher, Wuhan University of Technology, China

2009.09-2017.08, Associate Researcher, Wuhan University of Technology, China

2010.06-2012.06, Postdoctoral Researcher, University of Nebraska Medical Center, USA

2017.09-present, Researcher, Wuhan University of Technology, China

RESEARCH PROJECT

(1) National Key R & D Projects, Ministry of Science and Technology: Study of biomedical materials for additive manufacturing of bone and joint personalized prosthesis;

(2) National Natural Science Foundation of China, General Program: Luminescence synergistic enhancement and in vivo metabolism of rare earth doped nano apatite as tumor imaging agent

(3) Science and Technology Partnership Program, Ministry of Science and Technology of China: Collaborative technology research and demonstration of biodegradable organic-inorganic nanocomposite biomedical membrane

SELECTED PUBLICATION

  1. Dong Yan, Bin Zeng, Yingchao Han, Honglian Dai, Jie Liu, Yunlong Sun, Feng Li. Preparation and laser powder bed fusion of composite microspheres consisting of poly(lactic acid) and nano-hydroxyapatite. Additive Manufacturing, 2020, 34:101305.

  2. H. M. C. Suboda Wijerathne, Dong Yan, Bin Zeng, Yanping Xie, Hongchao Hu, M. Nirmali Wickramaratne, Yingchao Han. Effect of nano‑hydroxyapatite on protein adsorption and cell adhesion of poly(lactic acid)/nano‑hydroxyapatite composite microspheres. SN Applied Sciences, 2020, 2:722.

  3. Xiaojun Zhang, Qingguo Xing, Lixuan Liao and Yingchao Han. Effect of the Fluorine Substitution for –OH Group on the Luminescence Property of Eu3+ Doped Hydroxyapatite. Crystals 2020, 10: 191.

  4. Hongyan Bi, Tianyi Feng, Binbin Li, Yingchao Han. In Vitro and In Vivo Comparison Study of Electrospun PLA and PLA/PVA/SA Fiber Membranes for Wound Healing. Polymers, 2020, 12: 839.

  5. Qingguo Xing, Xiaojun Zhang, Dulan Wu, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Ultrasound-Assisted Synthesis and Characterization of Heparin-Coated Eu3+

Doped Hydroxyapatite Luminescent Nanoparticles. Colloid and Interface Science Communications 29 (2019) 17–25

  1. Peilong Ni, Hongyan Bi, Gang Zhao, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Electrospun preparation and biological properties in vitro of polyvinyl alcohol/sodium alginate/nano-hydroxyapatite composite fiber membrane. Colloids and Surfaces B: Biointerfaces 173 (2019) 171–177

  2. Dong Yan, Yuxin Lou, Yingchao Han, M. Nirmali Wickramaratne, Honglian Dai, Xinyu Wang. Controllable synthesis of poly(acrylic acid)-stabilized nanohydroxyapatite suspension by an ultrasound-assisted precipitation method. Materials Letters, 2018, 227:9–12

  3. Yunfei Xie, Wangmei He, Fang Li, Thalagalage Shalika Harshani Perera, Lin Gan, Yingchao Han, Xinyu Wang, Shipu Li, Honglian Dai. Luminescence Enhanced Eu3+/Gd3+ Co-Doped Hydroxyapatite Nanocrystals as Imaging Agents In Vitro and In Vivo. ACS Applied Materials & Interfaces, 2016, 8 (16)10212–10219.

  4. Fang Li, Qingguo Xing, Yingchao Han, Yue Li, Wei Wang, Thalagalage Shalika Harshani Perera, Honglian Dai. Ultrasonically assisted preparation of poly(acrylic acid)/calcium phosphate hybrid nanogels as pH-responsive drug carriers. Materials Science and Engineering C, 2017, 80: 688-697

  5. Wangmei He, Yunfei Xie, Qingguo Xing, Peilong Ni, Yingchao Han, Honglian Dai. Sol-gel synthesis of biocompatible Eu3+/Gd3+ co-doped calcium phosphate nanocrystals for cell bioimaging. Journal of Luminescence, 2017,192: 902–909


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