王灵芝

王灵芝,1979年生,浙江台州人。

华东理工大学副教授,硕士生导师,

上海市教委首届晨光学者,华东理工大学首批骨干教师计划及跟踪资助计划入选者。



招生专业

1. 应用化学

2. 轻工技术与工程 (工程硕士)



工作经历

2011/07 –至今 华东理工大学, 精细化工研究所, 副教授

2016/11- 加州大学河滨,访问学者

2014/05–2014/06 英国中央兰开夏大学,访问学者

2011/12 -2013/11 复旦大学,博士后,合作导师 赵东元

2007/07– 2011/06 华东理工大学, 精细化工研究所, 讲师


主讲化学工程与技术一级学科研究生“现代仪器分析实验技术”全英文必修课程。      

目前作为负责人承担了国家自然科学基金,上海市科委国际交流合作项目及上海市自然科学基金项目等共5项。已完成包括科技部863项目、国家自然科学基金及上海市自然科学基金等共7项科研项目。迄今为止,作为第一作者及通讯作者发表SCI收录论文50余篇,影响因子6.0以上的16篇,包括J. Am. Chem. Soc. (2篇),ACS Nano (1篇),Chem. Commun. (6篇),Appl. Catal. B (4篇)及 J. Mater. Chem. A (1篇),其中发表在ACS Nano的论文被Nature Asia作为亮点报道。


主要研究方向:

(1)金属SPR、纳米半导体SERS技术在分子检测及等离子共振光催化反应中的应用

(2)基于介孔的纳米荧光探针、示踪药物载体材料的构建

(3)CH4, CO2光催化转化

(4)负载型环境污染物深度净化材料的构建


代表性论文:

1.Qi Dianyu, Lu Liujia, Wang Lingzhi,* Zhang Jinlong,* Improved SERS Sensitivity on Plasmon-Free TiO2 Photonic Microarray by Enhancing Light-Matter Coupling,Journal of the American Chemical Society, 2014, 136, 9886.

2.Lu Deli, Lei Juying, Wang Lingzhi,* Zhang Jinlong,* Multifluorescently Traceable Nanoparticle by a Single-Wavelength Excitation with Color-Related Drug Release Performance, Journal of the American Chemical Society, 2012, 134, 8746.

3.Lei Juying,Wang Lingzhi,* Zhang Jinlong,* Superbright Multifluorescent Core-Shell Mesoporous Nanospheres as Trackable Transport Carrier for Drug, ACS Nano,2011, 5, 3447.

4.Lingang Yang, Lingzhi Wang,* Chuanfeng Cui, Juying Lei, Jinlong Zhang* Stöber strategy for synthesizing multifluorescent organosilica nanocrystals Chemical Communications 2016.05.01 52 6154

5.Xianjun Tan, Lingzhi Wang,* Chen Cheng, Xuefeng Yan, Bin Shen, Jinlong Zhang* Plasmonic MoO3−x@MoO3 nanosheets for highly sensitive SERS detection through nanoshell-isolated electromagnetic enhancement Chemical Communications  2015.12.16 52 2893.

6.Qi Dianyu, Yan Xuefeng, Wang Lingzhi,* Zhang Jinlong,* Plasmon-free SERS self-monitoring of catalysis reaction on Au nanoclusters/TiO2 photonic microarray Chemical Communications,2015, 51, 8813.

7.Shi Wen, Wang Lingzhi,* Du Dan, Shen Bin, Cui Chuanfeng, Zhang jinlong* Synthesis of Yolk–Shell Structured Fe3O4@void@CdS Nanoparticles: A General and Effective Structure Design for Photo-Fenton Reaction ACS Applied Materials & Interfaces 2016, 8, 20831. 

8.Yang Lingang, Cui Chuanfeng, Wang Lingzhi,* Lei Juying, Zhang Jinlong* Dual-Shell Fluorescent Nanoparticles for Self-Monitoring of pH-Responsive Molecule-Releasing in a Visualized Way, ACS Appl. Mater. Interfaces, 2016, 8, 19084.

9.Du Dan, Wang Lingzhi,* Shi Wen, Zhang Jinlong* Yolk-shell structured Fe3O4@void@TiO2 as a photo-Fenton-like catalyst for the extremely efficient elimination of tetracycline Applied Catalysis B: Environmental 2016, 200 484.

10.Yang Lingang, Wang Lingzhi* Xing Mingyang, Lei Juying, Zhang Jinlong* Silica nanocrystal/graphene composite with improved photoelectric and photocatalytic performance, Applied Catalysis B: Environmental,2016,180, 106.

11.Liujia Lu, Fei Teng, Tapas Sen,Dianyu Qi, Lingzhi Wang,* Jinlong Zhang,* Synthesis of visible-lightdriven CrxOy-TiO2 binary photocatalyst based on hierarchical macro-mesoporous silica,Applied Catalysis B: Environmental, 2015, 163, 9.

12.Qi Dianyu, Lu Liujia, Xi Zhenhao, Wang Lingzhi,* Zhang, Jinlong,* Enhanced photocatalytic performance of TiO2 based on synergistic effect of Ti3+ self-doping and slow light effect,Applied Catalysis B: Environmental,2014, 160, 621.

13.Wang Lingzhi, Cheng Chen, Tapas Sen, Lei, Juying, Matsuoka Masaya, Zhang Jinlong, Zhang Fan, Carbon dots modified mesoporous organosilica as an adsorbent for the removal of 2, 4-dichlorophenol and heavy metal ions, J. Mater. Chem. A, 2015, 3, 13357.

14.Yan Xuefeng, Wang Lingzhi,* Tan Xianjun, Tian Baozhu, Zhang Jinlong,* Surface-Enhanced Raman Spectroscopy Assisted by Radical Capturer for Tracking of Plasmon Driven Redox Reaction Scientific Reports 2016, 6, 30193. 

15.Chen Cheng, Tan Xianjun, Lu Deli, Wang Lingzhi,* Sen Tapas, Lei Juying, Ahmed Mohamed El-Toni, Zhang Jinlong,* Zhang Fan,* Zhao Dongyuan Carbon-Dot-Sensitized, Nitrogen-Doped TiO2 in Mesoporous Silica for Water Decontamination through Nonhydrophobic Enrichment–Degradation Mode Chemistry A European Journal 2015, 21, 17944.