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王维

职称:副教授

电话:020-37336640

E-mail:wangwei_0415@163.com

个人简介


王维,男,1984年出生,副教授,硕士生导师。

2007年本科毕业于吉林化工学院,材料科学与工程学院。2013年在吉林大学,化学学院获得博士学位。其后20132016年先后于香港浸会大学,香港大学从事博士后研究工作。2017年加入暨南大学,光子技术研究院,任职副教授。

主要从事小分子荧光探针设计开发,光纤生物传感纳米复合功能材料制备,以及光声/光热诊疗等方面研究。在本领域权威学术刊物发表SCI论文18篇,近五年被引用500余次。


荣誉与奖励


2014年,吉林省自然科学学术成果二等奖


代表性科研项目


1. 活性氧“激活”型纳米探针的构建及用于肿瘤光声成像的研究,国家自然科学基金青年基金项目,2019-2022(主持)

2. 基于活性氧激活的近红外纳米光声造影剂的制备及其成像研究,广东省自然科学基金自由项目,2018-2021(主持)

3. 近红外纳米生物传感器的构建与肿瘤空间成像研究,暨南大学科研培育与创新基金青年基金项目,2018-2020(主持)


代表性论文


1. W. Wang, N. K. Wong, M. Sun, C. Yan, S. Ma, Q. Yang* and Y. Li, “Regenerable fluorescent nanosensors for monitoring and recovering metal ions based on photoactivatable monolayer self-assembly and host-guest interactions”. ACS Appl. Mat. Interfaces, 2015, 7, 8868−8875.

2. W. Wang, Y. Zhang, Q. Yang,* M. Sun, X. Fei, Y. Song,* Y. Zhang and Y. Li, “Fluorescent and colorimetric magnetic microspheres as a nanosensor for Hg2+ in aqueous solution prepared by sol-gel grafting reaction and host-guest interaction”. Nanoscale, 2013, 5, 4958-4965.

3. W. Wang, X. Wang, Q. Yang*, X. Fei, M. Sun and Y. Li*, “Reusable nanofibrous film chemosensor for highly selective and sensitive optical signaling of Cu2+ in aqueous media”. Chem. Commun., 2013, 49, 4833-4835.

4. W. Wang, Y. Li, M. Sun, C. Zhou, Y. Zhang, Y. Li and Q. Yang*. “Colorimetric and fluorescent nanofibrous film as a chemosensor for Hg2+ in aqueous solution prepared by electrospinning and host–guest interaction”. Chem. Commun., 2012, 48, 6040-6042.

5. W. Wang, Q. Yang, L. Sun, H. Wang, C.n Zhang, X. Fei, M. Sun, Y. Li*. “Preparation of fluorescent nanofibrous film as a sensing material and adsorbent for Cu2+ in aqueous solution via copolymerization and electrospinning”. J. Hazard. Mater. 2011, 194, 185-192.

6. W. Wang, Q. Wen, Y. Zhang, X. Fei, Y. Li, Q. Yang* and X. Xu*. “Simple naphthalimide-based fluorescent sensor for highly sensitive and selective detection of Cd2+ and Cu2+ in aqueous solution and living cells”. Dalton Trans., 2013, 42, 1827-1833.

7. W. Wang, Y. Zhang, Y. Li, Q. Zhao*. “An easily accessible and highly selective ‘turn-on’ fluorescent sensor for imaging cadmium in living cells”. Chem. Res. Chinese U., 2013, 29, 632-637.

8. T. Peng, X. Chen, L. Gao, T. Zhang, W. Wang, J. Shen and D. Yang*. A rationally designed rhodamine-based fluorescent probe for molecular imaging of peroxynitrite in live cells and tissues. Chem. Sci., 2016, 7, 5407-5413.

9. Y. Zhang, W. Wang, Q. Li, Q. Yang*, Y. Li, J. Du*, “Colorimetric magnetic microspheres as chemosensor for Cu2+ prepared from adamantane-modified rhodamine and β-cyclodextrin-modified Fe3O4@SiO2 via Host-guest interaction”. Talanta, 2015, 141, 33-40.

10. H. Z. He, K. H. Leung, W. Wang, D. S. H. Chan, C. H. Leung, D. L. Ma*, “Label-free luminescence switch-on detection of T4 polynucleotide kinase activity using a G-quadruplex-selective probe”. Chem. Commun., 2014, 50, 5313-5315.

11. K. H. Leung, H. Z. He, W. Wang, H. J. Zhong, D. S. H. Chan, C. H. Leung, D. L. Ma*. “Label-free luminescent switch-on detection of endonuclease IV activity using a G-quadruplex-selective iridium(III) complex” ACS Appl. Mat. Interfaces, 2013, 5, 12249-12253.

12. C. Q. Z, J. Sun, W. Wang, Q. B. Yang, Y. X. Li and J. S. Du. “Facile method to prepare metal sulfide (Ag2S, CuS, PbS) nanoparticles grown on surface of polyacrylonitrile nanofibre and their optical properties”. Chem. Res. Chinese Universities, 2012, 28(3), 534-538.

13. C. Zhang, Y. Li, W. Wang, N. Zhan, N. Xiao, S. Wang, Y. Li and Q. Yang*. “A novel two-nozzle electrospinning process for preparing microfiber reinforced pH-sensitive nano-membrane with enhanced mechanical property”. European Polymer Journal, 2011, 2228-2233.

14. H. Wang, Y. Li, L. Sun, Y. Li, W. Wang, S. Wang, S. Xu and Q. Yang*. “Electrospun novel bifunctional magnetic- photoluminescent nanofibers based on Fe2O3 nanoparticles and europium complex”. Journal of Colloid and Interface Science, 2010, 350, 396-401.

15. H. Wang, Q. Yang, L. Sun, S. Wang, W. Wang, C. Zhang, Y. Li, S. Xu and Y. Li*. “Aggregation states of rhodamine 6G in electrospun nanofibrous films”. Journal of Colloid and Interface Science. 2010, 341, 224-231.