2017.09.01 浏览数:0
宁静,女,1989年出生,山东东营人,理学博士,副教授。2007年9月至2011年7月于中国海洋大学(材料化学专业)获学士学位,2011年9月至2016年7月于国家纳米科学中心(纳米系统与多级次制造重点实验室)获博士学位。2016年12月至2017年5月:betway必威西汉姆联官网(必威无机化学教研室)讲师。2017年5月至今:betway必威西汉姆联官网 特聘副教授。以第一作者在国际著名学术期刊Advanced Materials、Journal of the American Chemical Society、 Journal of Energy Chemistry、Journal of Material Chemistry A、Nanoscale等发表多篇论文。邮箱:ningj2007@163.com。
研究领域:共价有机框架材料(COF)的制备及应用;碳基纳米材料的制备及应用
承担课程:普通化学、无机化学、专业英语等
发表论文:
21. Shengxiang Zhou; Xuefeng Wang* (Co-first author); Xingdi Cao; Jing Ning*; Long Hao*, Covalent Organic Frameworks Constructed by Step with [(C3+C2)+C2] Strategy toward Fluorescence Detection of Fe3+. Chemical Communications 2022, 58, 12240-12243. (二区,2021 影响因子: 6.065) 文章链接
20. Jing Ning; Yang Gao (co-first author); Xingdi Cao (co-first author); Hongtao Wei; Bin Wang*; Long Hao*. Substituent Engineering of Covalent Organic Frameworks modulates the Crystallinity and Electrochemical Reactivity. Journal of Energy Chemistry 2022, 65: 490-496. (一区,2021 影响因子: 13.599) 文章链接: https://www.sciencedirect.com/science/article/pii/S2095495621003570
19. Hongtao Wei, Jing Ning (co-first author), Xingdi Cao (co-first author), Xuehui Li, and Long Hao* (corresponding author), Benzotrithiophene-based Covalent Organic Frameworks: Construction and Structure Transformation under Ionothermal Condition, Journal of the American Chemical Society, 2018, 140(37), 11618-11622. (一区,影响因子: 14.695)
18. Ning J, Hao L., Jin M., Qiu X., Shen Y., Liang J., Zhang X., Wang B., Li X., and Zhi L. A Facile Reduction Method for Roll-to-roll Production of High Performance Graphene-based Transparent Conductive Films. Advanced Materials, 2017. 29(9): p. 1605028. (一区,影响因子:19.791)
17. Ning J, Wang J, Li X, Qiu T, Luo B, Hao L, Liang M, Wang B and Zhi L. A fast room-temperature strategy for direct reduction of graphene oxide films towards flexible transparent conductive films. Journal of Materials Chemistry A, 2014, 2: 10969-10973 (一区, 影响因子 : 7.443).
16. Zhang X, Ning J (共同一作), Li X, Wang B, Hao L, Liang M, Jin M and Zhi L. Hydrogen-induced effects on the CVD growth of high-quality graphene structures. Nanoscale, 2013, 5: 8363-8366 (一区, 影响因子 : 6.739).
15. Ning J, Hao L, Zhang X F, et al. High-quality graphene grown directly on stainless steel meshes through CVD process for enhanced current collectors of supercapacitors. Science China-Technological Sciences, 2014, 57: 259-263 (四区,影响因子: 1.192).
14. 宁静,智林杰,基于碳纳米材料的柔性透明导电薄膜研究进展。《科学通报》,2014, 59, 3313-3321.
13. Qingqing Tang (Co-first author), Ying-Ying Gu (Co-first author), Jing Ning, Yingkui Yan, Li Shi,* Mengshi Zhou, Hongtao Wei, Xiaohui Ren, Xuehui Li, Junxia Wang, Chao Tang,* Long Hao,* Jinhua Ye,Boosting Photocatalysis of Hydrazone-Linked Covalent Organic Frameworks through Introducing Electron-rich Conjugated Aldehyde. Chemical Engineering Journal 2023, 470, 144106
12. Yong Zhao , Long Hao, Adnan Ozden (Co-first author), Shijie Liu (Co-first author), Rui Kai Miao, Pengfei Ou, Tartela Alkayyali, Shuzhen Zhang, Jing Ning, Yongxiang Liang, Yi Xu, Mengyang Fan, Yuanjun Chen, , Jianan Erick Huang, Ke Xie, Jinqiang Zhang, Colin P. O’Brien , Fengwang Li,* Edward H. Sargentand and David Sinton,* Conversion of CO2 to multicarbon products in strong acid by controlling the catalyst microenvironment. Nature Synthesis 2023, 2 (5), 403-412. 文章链接:https://www.nature.com/articles/s44160-022-00234-x
11. Yong Zhao; Long Hao*; Jing Ning; Haijin Zhu; Amruthalakshmi Vijayakumar; Caiyun Wang*; Gordon G. Wallace*, A Versatile Transition Metal Ion-Binding Motif Derived from Covalent Organic Framework for Efficient CO2 Electroreduction. Applied Catalysis B: Environmental 2021, 291: 119915. (IF:24.319)
10. Hao L, Ning J, Luo B, Wang B, Zhang Y, Tang Z, Yang J, Thomas Arne, Zhi L. Structural Evolution of 2D Microporous Covalent Triazine-based Framework towards the Study of high performance supercapacitors. Journal of the American Chemical Society, 2015, 137: 219-225 (IF : 13.038).
9. Hao L, Zhang S, Liu R, Ning J, Zhang G, Zhi L. Bottom-Up Construction of Triazine-Based Frameworks as Metal-Free Electrocatalysts for Oxygen Reduction Reaction. Advanced Materials, 2015, 27:3190-3195 (IF : 18.96).
8. Luo B, Wang B, Liang M, Ning J, Li X and Zhi L. Reduced graphene oxide-mediated growth of uniform tin-core/carbon-sheath coaxial nanocables with enhanced lithium ion storage properties. Advanced Materials, 2012, 24: 1405-1409 (IF: 13.877).
7. Qiu T, Luo B, Liang M, Ning J, Wang B, Li X, Zhi L. Hydrogen reduced graphene oxide/metal grid hybrid film: towards high performance transparent conductive electrode for flexible electrochromic device. Carbon, 2015, 81: 232-238 (IF : 6.198).
6. Wang B, Li X, Qiu T, Luo B, Ning J, Li J, Zhang X, Liang M and Zhi L. High volumetric capacity silicon-based lithium battery anodes by nanoscale system engineering. Nano Letters, 2013, 13: 5578-84. (IF : 12.94).
5. Zhou M., Li X., Wang B., Zhang Y., Ning J., Xiao Z., Zhang X., Chang Y., and Zhi L. High-performance Silicon Battery Anodes Enabled by Engineering Graphene Assemblies. Nano Letters, 2015. 15(9): p. 6222-6228. (IF : 13.779).
4. Zhang Y, Miao L, Ning J, Xiao Z, Hao L, Wang B, Zhi L., 2D Materials, 2015, 2: 024013. (IF:9.611)
3. Wang X., Kong D., Zhang Y., Wang B., Li X., Qiu T., Song Q., Ning J., Song Y. and Zhi L., Nanoscale, 2016. 8(17): p. 9146-9150. (IF: 7.367 )
2. Qiu T., Akinoglu E., Luo B., Giersig M., Liang M., Ning J., and Zhi L., Particle & Particle Systems Characterization, 2016, doi:10.1038/ncomms13461 (IF: 4.474)
1. Miao Z., Li X., Zhang X., Zhou M., Ning J., Miao L., Qiu X., Jin M., Zhi L., Advanced Materials Interfaces, 2016. 3(8): 10.1002/admi.201500842 ( IF: 4.279)
申请专利: