所属学院：

材料与能源学院

导师类别：

硕士生导师

科研方向：

光学材料、超快激光器

联系方式：

taoll@gdut.edu.cn

招生学院：

材料与能源学院

个人简述

陶丽丽，副教授，硕士生导师，广东省青年拔尖人才（珠江人才计划）。2013年底毕业于香港理工大学应用物理系，获得博士学位，2014至2016年在香港理工大学应用物理系任职Research Associate，2016年4月入选广东工业大学“青年百人计划”A类，进入广东工业大学材料与能源学院工作。主要从事二维材料在超快激光器中的应用以及稀土发光材料研究。迄今已在Adv. Mater., Mater.   Horiz., Angew. Chem., Adv. Sci., ACS Photonics, Adv. Opt. Mater., Nanoscale, Photonics   Res., J. Mater. Chem. C, Opt. Lett.等期刊发表60余篇SCI论文，他引1200余次。主持的项目包括国家自然科学基金青年项目、广州市基础与应用基础研究项目以及广东工业大学青年百人项目。并作为科研骨干参与多项科研项目，包括香港基础研究基金（RGC）、香港创新技术基金（ITF）、粤港科技合作资助计划等。

学科领域

科学学位：材料科学与工程/微电子学与固体电子学

专业学位：材料与化工

教育背景

2006年7月   在华南理工大学无机非金属材料专业  获学士学位

2009年3月   在华东理工大学材料科学与工程专业  获硕士学位

2013年8月   在香港理工大学应用物理系  获博士学位

工作经历

2013.9-2016.3     香港理工大学应用物理系，Research Associate

2016.4-至今     广东工业大学材料与能源学院，先进装备与光电技术研究所，副教授

主要荣誉

2017年 广东省青年拔尖人才（珠江人才计划）

2017年 广东工业大学先进科技工作者

2016年 广工工业大学青年百人A

主要论文

[1] B. Zhou*, L.   Yan, J. S. Huang, X. L. Liu, L. L. Tao, Q. Y. Zhang*, NIR   II-responsive photon upconversion through energy migration in an ytterbium   sublattice, Nature Photonics, 14, 760-766, 2020.

[2] J. He, C.   Wang, B. Zhou, Y. Zhao, L. L. Tao,* H. Zhang,* 2D van der Waals   heterostructures: processing, optical properties and applications in   ultrafast photonics, Materials Horizons, 7, 2903-2921, 2020.

[3] S. B. Liu, L.   Yan, Q. Li, J. Huang, L. L. Tao,* B. Zhou,* Tri-channel photon   emission of lanthanides in lithium-sublattice core-shell nanostructures for   multiple anti-counterfeiting, Chemical Engineering Journal,   397, 125451, 2020.

[4] Y. H. Shi, Y.   H. Li, L. L. Tao,* and Q. Wen,* Ultrafast pulse generation based on   the 2D analogue of black phosphorus GeS, OSA Continue, 3(3),   658-667, 2020.

[5] J. S. He, Y.   H. Li, Y. J. Lou, G. H. Zeng, L. L. Tao*, Optical deposition of PtSe₂   on fiber end face for Yb-doped mode-locked fiber laser, Optik,   198, 163298, 2019.

[6] Y. H. Li, Y.   J. Lou, J. S. He, G. H. Zeng, L. L. Tao*, Q-switched ytterbium fiber   laser based on rhenium diselenide as a saturable absorber, Journal of   Physics D: Applied Physics 52, 465101, 2019.

[7] J. S. He, L.   L. Tao,* H. Zhang,* B. Zhou, J. B. Li, Emerging 2D materials beyond   graphene for ultrashort pulse generation in fiber lasers, Nanoscale,   11, 2577-2593, 2019.

[8] J. S. He, Y.   J. Lou, Y. H. Li, Y. Zhao, M. M. Hao, L. L. Tao,* J. B. Li,*   Preparation of vertically aligned two-dimensional SnS₂ nanosheet   film with strong saturable absorption to femtoseconds laser, Journal of   Physics D: Applied Physics, 52(16), 165101, 2019.

[9] B. Zhou,* J.   S. Huang, L. Yan, X. L. Liu, N. Song, L. L. Tao,* Q. Y. Zhang,*   Probing energy migration through precise control of interfacial energy   transfer in nanostructure, Advanced Materials, 31(6),1806308,   2019.

[10] L. X. Han, M.   M. Hao, L. L. Tao,* J. B. Li,* Fiber combiner terminated with quartz   block head for direct beam combining of fiber coupled laser diodes, Optik,   184, 35-39, 2019.

[11] G. W. Liang^#,   L. L. Tao^#, Y. H. Tsang,* L. H. Zeng, X. Liu, J. Li, J. L.   Qu, Q. Wen,* Optical limiting properties of a few-layer MoS₂/PMMA   composite under excitation of ultrafast laser pulses, J. Mater. Chem. C,   7(3), 495-502,2019.

[12] Y. J. Lou, Y.   H. Shi, S. X. Liu, J. S. He, Y. H. Li, L. L. Tao,* L. H. Zeng, H.   Long, Q. Wen,* J. B. Li, Preparation of ultrathin graphitic carbon nitride nanosheets   and its application to a tunable multi-wavelength mode-locked fiber laser, Optical   Materials, 86, 382-386, 2018.

[13] L. Yan, B.   Zhou,* N. Song, X. L. Liu, J. S. Huang, T. Wang, L. L. Tao,* Q. Y.   Zhang,* Self-sensitization induced upconversion of Er³⁺ in   core-shell nanoparticles, Nanoscale, 10, 17949-17957, 2018.

[14] L. L. Tao,   X. L. Liu, J. S. He, Y. J. Lou, Y. H. Li, Y. Zhao, B. Zhou*, Near-infrared   upconversion of Nd through Gd-mediated interfacial energy transfer in   core-shell nanoparticles, Optical Materials Express, 2018,   8(8), 2449-2454.

[15] L. L. Tao,   X. Huang, J. He, Y. Lou, L. Zeng, Y. Li, H. Long, J. B. Li, L. Zhang*, Y. H.   Tsang*, Vertically standing PtSe₂ film: a saturable absorber for a   passively mode-locked Nd:LuVO4 laser, Photonics Research, 2018,   6(7), 750-755.

[16] L. L. Tao,   L. Yan, Y. Lou, Y. Li, Y. Zhao, B. Zhou,* J. B. Li,* Bright white-light   upconversion from core-shell nanocrystals through interfacial energy   transfer, Dyes and Pigments, 154, 2018, 87-91.

[17] L. L. Tao*,   Y. Jun Lou, Y. Zhao, M. M. Hao, Y. B. Yang, Y. Xiao, Y. H. Tsang, J. B. Li*,   Silver nanoparticle-decorated graphene oxide for surface-enhanced Raman   scattering detection and optical limiting applications, Journal of   Materials Science, 53, 573-580, 2018.

[18] B. Zhou,* L.   Yan, L. L. Tao,* N. Song, M. Wu, T. Wang, Q. Y. Zhang,* Enabling   photon upconversion and precise control of donor-acceptor interaction through   interfacial transfer, Advanced Science, 2018, 5, 1700667.

[19] L. L. Tao,   Y. Zhao, J. B. Li,* Photon upconversion in Yb-Tb co-sensitized core-shell   nanocrystals by interfacial energy transfer, Optical Materials Express,   7, 1022-1028, 2017.

[20] L. H. Zeng#,   L. L. Tao#, C. Y. Tang, B. Zhou, H. Long, Y. Chai, S. P. Lau, Y. H.   Tsang*, “High-responsivity UV-Vis photodetector based on WS₂ film   deposited by magnetron sputtering”, Scientific Reports, 6,   20343, 2016.

[21] H. Long#, L.   L. Tao#, C. Y. Tang, H. Y. Tam, Q. Wen, Y. H. Tsang*, “Effect of laser   illumination on the morphology and optical property of few-layer MoS₂   nanosheet in NMP and PMMA”, Journal of Materials Chemistry C,   4,678-683, 2016.

[22] H. Long#, L.   L. Tao# , C. Y. Tang, B. Zhou, Y. D. Zhao, L. H. Zeng, S. F. Yu, S. P.   Lau, Y. Chai, Y. H. Tsang*, “Tuning Nonlinear Optical Absorption Properties   of WS₂ nanosheets”, Nanoscale, vol. 7, p.17771,   2015.

[23] L. L. Tao,   H. Long, B. Zhou, S. F. Yu, D.S. P. Lau, Y. Chai, K. H. Fung, Y. H. Tsang*,   J. Q. Yao, D. G. Xu*, “Preparation and characterization of few-layer MoS₂   nanosheets and their good nonlinear optical responses in the PMMA matrix”, Nanoscale,   vol. 6, p. 9713, 2014.

[24] L. L. Tao,   B. Zhou*, W. Jin, Y. Chai, C. Y. Tang, and Y. H. Tsang*, “Improved   multi-photon ultraviolet upconversion photoluminescence in core-shell   nanocrystals”, Optics Letters, vol. 39, p. 6265, 2014.

[25] B. Zhou#, L.   L. Tao#, Y. H. Tsang*, and W. Jin, “Core-shell nanoarchitecture: a   strategy to significantly enhance white-light upconversion of   lanthanide-doped nanoparticles”, Journal of Materials Chemistry C,   vol. 1, p. 4313, 2013.

[26] L. L. Tao,   B. Zhou, G. Bai, Y. Wang, S. F. Yu, S. P. Lau, Y. H. Tsang*, J. Q. Yao, and   D. G. Xu*, “Fabrication of covalently functionalized graphene oxide   incorporated solid-state hybrid silica gel glass and their improved nonlinear   optical response”, Journal of Physical Chemistry C, vol. 117, p.   23108, 2013.

[27] L. L. Tao,   B. Zhou, G. Bai, Y. Wang, J. Hao, and Y. H. Tsang*, “Broadband conversion of   ultraviolet to visible and near-infrared emission in Gd³⁺/Yb³⁺   codoped germanate glass”, Journal of Non-Crystalline Solids,   vol. 376, p. 26, 2013.

[28] L. L. Tao,   Y. H. Tsang*, B. Zhou, B. Richards, and A. Jha. “Enhanced 2.0 μm emission and   energy transfer in Yb³⁺/Ho³⁺/Ce³⁺ triply   doped tellurite glass”, Journal of Non-Crystalline Solids, vol.   358, p. 1644, 2012.

科研项目

[1] 新型二维过渡金属硫化物/石墨烯异质结可饱和吸收特性及其在超快光纤激光器中的应用研究，国家自然科学基金青年基金项目（61705044），2018.01-2020.12，主持。

[2] Group-10二维金属硒化物的宽带可饱和吸收性质研究及其在超快光纤激光器中的应用，广州市基础与应用基础研究项目（202002030027），2020.4-2023.4，主持。