学习经历

2013.10-2017.01 The University of Sheffield，博士

2010.09-2013.07 华南理工大学，硕士

2006.09-2010.07 鲁东大学，学士

工作经历

2020.09-至今 暨南大学，教授

2017.01-2020.01 The University of Sheffield，博士后

研究方向

高分子化学与物理，高分子自组装，功能复合材料，MOF/COF框架材料等。

热烈欢迎对科研充满热情、富有好奇心的同学加入本实验室；同时，诚邀具有交叉研究背景（如高分子合成、配位化学、功能材料、MOF/COF、纳米能源、光/电催化等）的博士后加入本实验室。我们与欧美知名课题组长期保持着密切的科研合作，对能力突出的学生/博后可推荐至海外联合培养或继续深造。

主要论文

[1]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.

[2] Y. Ning* and S. P. Armes*,

Efficient occlusion of nanoparticles within inorganic single crystals, Acc. Chem. Res., 2020,53, 1176−1186. 

[3] 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.

[4]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.

[5]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.

[6]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.

[7] 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.

[8] 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.

[9] Y. Ning*, F. C. Meldrum and S. P. Armes*,

Efficient occlusion of oil droplets within calcite crystals, Chem. Sci., 2019, 10, 8964–8972.

[10]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.

[11] 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.

[12]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.

[13]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.

[14]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. 

荣誉与奖励

2013–优秀研究生+优秀研究生论文，华南理工大学

2012–研究生国家奖学金，教育部

2012–金发科技奖学金，广州

2010–优秀本科生+优秀本科生论文，鲁东大学                            

2007–国家励志奖学金，教育部

承担课题

暨南大学第四层次人才引进启动经费