个人信息 |
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姓名: 宁印 部门: 化学与材料学院 直属机构: 化学与材料学院 性别: 男 职务: 职称: 教授 学位: 博士 毕业院校: 谢菲尔德大学 联系电话: 电子邮箱: yinning@jnu.edu.cn 办公地址: F1 2001A 通讯地址: 邮编: 传真: 荣誉奖励: 国家级青年人才 |
联系方式邮箱:yinning@jnu.edu.cn |
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个人简介宁印,男,教授,博导,国家级青年人才项目获得者。2013-2020年在英国谢菲尔德大学攻读博士学位和从事博士后研究工作(师从Steven P. Armes院士);主要研究兴趣包括:高分子合成及其自组装、高分子-晶态复合材料、高分子膜材料、仿生合成、有机-无机杂化材料等;迄今已在国际高水平杂志上发表学术论文30余篇,其中第一/通讯作者文章20余篇,包括Acc. Chem. Res. (1篇),JACS(4篇),Angew. Chem. Int. Ed.(4篇),Chem. Sci.(3篇)等。 学习经历2013.10-2017.01 The University of Sheffield PhD(Polymer chemistry) 2010.09-2013.07 South China University of Technology M.S.(Materials science) 2006.09-2010.07 Ludong University B.S.(Polymer materials and engineering) 工作经历2020.09-至今 暨南大学,教授、博导 2017.01-2020.01 The University of Sheffield,Research associate 研究方向高分子合成及其自组装、高分子-无机晶态复合材料、高分子膜材料、仿生矿化、有机-无机杂化材料等。 本研究团队诚邀教学科研人员(青年教师)、专职科研岗、科研助理的加盟(长期有效)! 同时,诚邀具有交叉研究背景(如高分子合成、有机合成、功能材料、光/电催化等)的博士后、博士生以及研究生加入本实验室;我们与国内外知名课题组长期保持着密切的科研合作,有着良好的学术资源和充足的科研经费。 主要论文主要论文(仅第一/通讯作者论文) 回国后: [1] Z. Zhao, W. Chen, Q. Li, B. Xiong, Y. Ning,* and P. Yang, Interfacial Supra-Assembly of Copolymer Nanoparticles Enables the Formation of Nanocomposite Crystals with a Tunable Internal Structure, J. Am. Chem. Soc., 2023, 145,21546-21553. [2] Y. Dong+, J. Chi+, Z. Ren, B. Xiong, Z. Liu, W. Zhang,* L. Wang, S. Fujii,* S. P. Armes,* and Y. Ning*, Controlled Deformation of Soft Nanogel Particles Generates Artificial Biominerals with Ordered Internal Structure, Angew. Chem. Int. Ed., 2023, 62, e202300031. [3] J. Zhang, B. Xiong, Z. Fu, Y. Ning*, D. Li*, Synergistic Effect of Hydroxyl and Carboxyl Groups on Promoting Nanoparticle Occlusion within Calcite, Small, 2023, 2207843. [4] Z. Liu, B. Xiong, Y. Dong, Y. Ning*, D. Li*, Metal–Organic Frameworks@ Calcite Composite Crystals, Inorg. Chem. 2022, 61, 16203-16210. [5] Y. X. Dong, Z. Q. Liu,Y. Ning*, S. P. Armes* and D. Li, Occlusion of Diblock Copolymer-Modified Gold Nanoparticles Generates Diabolo-Shaped Au@ZnO Nanocomposite Crystals with Enhanced Photocatalytic Properties, Chem. Mater., 2022, 3357-3364. [6]Y. Ning*, S. P. Armes* and D. Li, Polymer-Inorganic Crystalline Nanocomposite Materials via Nanoparticle Occlusion, Macromol. Rapid Commun., 2022, 2100793. [7] Y. Ning*, Y. D. Han, L. J. Han, M. J. Derry and S. P. Armes*, Exerting Spatial Control During Nanoparticle Occlusion within Calcite Crystals, Angew. Chem. Int. Ed., 2020,59, 17966−17973. [8] Y. Ning* and S. P. Armes*, Efficient occlusion of nanoparticles within inorganic single crystals, Acc. Chem. Res., 2020,53, 1176−1186. 回国前: [9] Y. Ning*, L. J. Han, M. Douverne, N. J. W. Penfold, M. J. Derry*, F. C. Meldrum and S. P. Armes*, What dictates the spatial distribution of nanoparticles within calcite?J. Am. Chem. Soc., 2019,141, 2481−2489. [10] Y. Ning*, L. J. Han, M. J. Derry, F. C. Meldrum and S. P. Armes*, Model anionic block copolymer vesicles provide important design rules for efficient nanoparticle occlusion within calcite, J. Am. Chem. Soc.,2019,141, 2557−2567. [11] Y. Ning, L. A. Fielding, L. P. D. Ratcliffe, Y.-W. Wang, F. C. Meldrum and S. P. Armes*, Occlusion of sulfate-based diblock copolymer nanoparticles within calcite: effect of varying the surface density of anionic stabilizer chains. J. Am. Chem. Soc., 2016, 138, 11734−11742. [12] Y. Ning*, L. A. Fielding, J. Nutter, A. N. Kulak, F. C. Meldrum and S. P. Armes*, Spatially controlled occlusion of polymer-stabilized gold nanoparticles within ZnO, Angew. Chem. Int. Ed., 2019,58, 4302–4307. [13] M. Douverne, Y. Ning*, A. Tatani, F. C. Meldrum and S. P. Armes*, How many phosphoric acid units are required to ensure uniform occlusion of sterically-stabilized nanoparticles within calcite?, Angew. Chem. Int. Ed.,2019, 58, 8692–8697. [14] Y. Ning*, D. J. Whitaker, C. J. Mable, M. J. Derry, N. J. W. Penfold, A. N. Kulak, D. C. Green, F. C. Meldrum and S. P. Armes*, Anionic block copolymer vesicles act as Trojan horses to enable efficient occlusion of guest species into host calcite crystals, Chem. Sci., 2018, 9, 8396–8401. [15] Y. Ning*, F. C. Meldrum and S. P. Armes*, Efficient occlusion of oil droplets within calcite crystals, Chem. Sci., 2019, 10, 8964–8972. [16] P-C. Yang*, Y. Ning*, T. J. Neal, E. Jones, B. R. Parker and S. P. Armes*, Block copolymer microparticles comprising inverse bicontinuous phases prepared via polymerization-induced self-assembly, Chem. Sci., 2019, 10, 4200–4208. [17] Y. Ning, L. A. Fielding, K. E. B. Doncom, N. J. W. Penfold, A. N. Kulak, H. Matsuoka and S. P. Armes*, Incorporating diblock copolymer nanoparticles into calcite crystals: do anionic carboxylate groups alone ensure efficient occlusion?, ACS Macro Lett., 2016, 5, 311−315. [18] Y. Ning, L. A. Fielding, T. S. Andrews, D. J. Growney and S. P. Armes*, Sulfate-based anionic diblock copolymer nanoparticles for efficient occlusion within zinc oxide, Nanoscale, 2015, 7, 6691–6702. [19] Y. Ning, Y. Yang, C. Y. Wang*, T. Ngai* and Z. Tong, Hierarchical porous polymeric microspheres as efficient adsorbents and catalyst scaffolds, Chem. Commun., 2013, 49, 8761–8763. [20] Y. Ning, C. Y. Wang*, T. Ngai* and Z. Tong, Fabrication of tunable Janus microspheres with dual anisotropy of porosity and magnetism, Langmuir,2013, 29, 5138−5144. 主要著作Y. Yang#, Y. Ning#, Z. Tong and C. Y. Wang*, Particle-stabilized emulsions and colloids: formation and applications, Multiple Pickering Emulsions for Functional Materials (Chapter 8), 2015, 180-227. 承担课题国家级青年人才项目1项(主持) 国家自然科学基金1项(主持) 省部级项目2项(主持) 发明专利(1)宁印等,一种金属有机框架-碳酸钙复合晶体材料及其制备方法,中国专利,专利号:ZL 2021 1 0806416.2 (2)宁印等,一种高分子纳米凝胶颗粒/碳酸钙复合材料及其制备方法,中国专利,专利号:ZL 2021 0 0793492.4 讲授课程本科生课程:《高分子化学》 研究生课程:《高聚物的结构与性能》 博士生课程:《化学论文阅读与写作》、《现代高分子科学》 荣誉奖励 国家级青年人才
社会职务中国科协海智特聘专家;广东省科协海智特聘专家 |
