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个人简介

主要教育与工作经历: 2007/09-2011/07,安庆师范大学,学士 2011/09-2016/05,武汉大学,博士 2016/05/-2018/06,武汉大学,博士后 2017/05-2018/08,香港中文大学,访问学者 2018/08-至今,中国地质大学(武汉),特任教授,博士生导师 获奖: 2019年本科毕业论文“优秀指导教师奖” 科研项目: 1.国家自然科学基金青年项目,“磁共振与超宽谱异质纳米光学天线的制备及其非线性增强效应”,26万元,主持,在研 2.浙江省自然科学基金项目,“金属-半导体异质纳米结构的超快能量转移及其在光催化中的应用研究”,9万元,主持,在研 3.武汉工程大学光学信息与模式识别湖北省重点实验室项目,“等离激元Fano共振效应增强二次谐波”,3万元,主持,在研 4.国家重大项目,“表面等离激元局域光场调控低维结构中的激子耦合与能量转移”,80万元,参与,在研

研究领域

等离激元纳光子学及非线性光学

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1.Y. H. Qiu1,S. J. Ding1, Y. J. Lin, K. Chen, D. J. Yang, S. Ma, X. Li, H. Q. Lin, J. Wang*and Q. Q. Wang*, Growth of Au hollow stars and harmonic excitation energy transfer.ACS NanoDOI: 10.1021/acsnano.9b07686 (2020).(共同一作) 2.L. Ma*, Y. L. Chen, D. J. Yang*,S. J. Ding*, L. Xiong, P. L. Qin, X. B. Chen*, Multi-interfacial plasmon coupling in multigap (Au/AgAu)@CdS core-shell hybrids for efficient photocatalytic hydrogen generation.NanoscaleDOI: 10.1039/C9NR09696E (2020).(通讯作者) 3.P. F. Wang, K. Chen, S. Ma, W. Wang, Y. H. Qiu,S. J. Ding*, S. Liang*and Q. Q. Wang*, Asymmetric synthesis of Au-CdSe core-semishell nanorods for plasmon-enhanced visible-light driven hydrogen evolution.NanoscaleDOI: 10.1039/c9nr09370b (2020).(通讯作者) 4.S. J. Ding,et al.Magnetic plasmon-enhanced second-harmonic generation on colloidal gold nanocups.Nano Letters19, 2005 (2019). 5.L. Ma*, D. J. Yang, X. P. Song,S. J. Ding*, L. Xiong, P. L. Qin and X. B. Chen*, Pt decorated (Au nanosphere)/(CuSe ultrathin nanoplate) tangential hybrids for efficient photocatalytic hydrogen generation via dual-plasmon-induced strong VIS-NIR light absorption and interfacial electric field coupling.Solar RRL1900376 (2019).(通讯作者) 6.L. Ma*, Y. L. Chen, X. Yang,S. J. Ding*, H. Y. Hou, L. Xiong, P. L. Qin and X. B. Chen*, Growth behavior of Au/Cu2−xS hybrids and their plasmon-enhanced dual-functional catalytic activity.CrystEngComm21, 5610 (2019).(通讯作者) 7.Y. J. Lin1,S. J. Ding1, K. Chen, D. J. Yang, Y. Xie, Z. H. Hao, L. Zhou, Q. Q. Wang, Plasmon-enhanced photocatalytic activity of Pt@Au and Pt@Cu nanoparticles in quantum size regime.J Nanopart Res21, 137 (2019).(共同一作) 8.S. J. Ding,et al.Asymmetric growth of Au-core/Ag-shell nanorods with a strong octupolar plasmon resonance and an efficient second-harmonic generation.Nano Research11, 686 (2018). 9.S. J. Ding,et al.Strong magnetic resonances and largely enhanced second-harmonic generation of colloidal MoS2and ReS2@Au nanoantennas with assembled 2D nanosheets.Nanoscale10, 124 (2018). 10.J. Liu, K. Chen, G. M. Pan, Z. J. Luo, Y. Xie, Y. Y. Li, Y. J. Lin, Z. H. Hao, L. Zhou*,S. J. Ding*and Q. Q. Wang*, Largely enhanced photocatalytic hydrogen production rate of CdS/(Au-ReS2) nanospheres by the dielectric-plasmon hybrid antenna effect.Nanoscale10, 19586 (2018).(通讯作者) 11.L. Ma*, S. Chen, Y. Shao, Y. L. Chen, M. X. Liu, Y. L. Mao andS. J. Ding*, Recent progress in constructing plasmonic metal/semiconductor hetero-nanostructures for improved photocatalysis.Catalysts8, 634 (2018).(通讯作者) 12.S. J. Ding,et al.Strongly asymmetric spectroscopy in plasmon-exciton hybrid systems due to interference-induced energy repartitioning.Physical Review Letters119, 177401 (2017). 13.S. J. Ding,et al.Nonmonotonous shift of quantum plasmon resonance and plasmon-enhanced photocatalytic activity of gold nanoparticles.Nanoscale9, 3188 (2017). 14.S. J. Ding,et al.Plasmon-modulated excitation-dependent fluorescence from activated CTAB molecules strongly coupled to gold nanoparticles.Scientific Reports7, 43282 (2017). 15.F. Nan1,S. J. Ding1, L. Ma1, Z. Q. Cheng, Y. T. Zhong, Y. F. Zhang, Y. H. Qiu, X. G. Li*, L. Zhou* and Q. Q. Wang*, Plasmon resonance energy transfer and plexcitonic solar cell.Nanoscale8, 15071 (2016).(共同一作) 16.S. J. Ding,et al.Synthesis and enhanced fluorescence of Ag doped CdTe semiconductor quantum dots.Nanoscale7, 1970 (2015). 17.S. J. Ding,et al.Tunable plasmon resonance and enhanced second harmonic generation and upconverted fluorescence of hemispheric-like silver core/shell islands.Nanoscale7, 15798 (2015). 18.S. J. Ding,et al.Largely enhanced optical nonlinear response of heavily doped Ag:CdTe nanocrystals around the excitonic band edge.J. Phys. Chem. C119, 24958 (2015). 19.S. J. Ding,et al.Largely enhanced saturable absorption of a complex of plasmonic and molecular-like Au nanocrystals.Scientific Reports5, 9735 (2015).

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