物理学院


 
导师代码: 12326
导师姓名: 吕维强
性    别:
特    称:
职    称: 副教授
学    位: 理学博士学位
属    性: 专职
电子邮件: eselwq @ uestc.edu.cn

学术经历:   2017.6-至今 电子科技大学物理学院 副教授 2013.10-2017.5 电子科技大学 能源科学与工程学院 讲师 2013.8-2013.10 香港科技大学 化学系 助理研究员 2009.8-2013.8 香港科技大学 化学系 博士 2007.9-2009.7 哈尔滨工业大学,化工学院,化学工艺 硕士 2003.9-2007.7 哈尔滨工业大学,理学院,应用化学系 本科

个人简介:   致力于锂离子电池、锂硫电池、燃料电池等新型能源材料与器件的开发与基础问题研究,以及机器学习在材料和能源领域的应用。通过理论与实验相结合,开发了抑制锂枝晶生长和多硫化物穿梭效应、提升硫电极性能的方法和材料;发展了新的高效的多孔电极扩散系数测试方法。研究成果得到了国内外著名科学家如2019年诺贝尔奖得主、美国双院院士和锂电池先驱John B. Goodenough的肯定。近五年累计发表学术论文80余篇,中以第一作者/共同一作身份在Nature Communication、Joule、Advanced Energy Materials、ACS Nano、Small、Nanoscale等期刊发表论文20篇,引用2300余次,H因子25。在Springer出版英文专著1部,担任十余种国际期刊审稿专家。承担国家自然科学基金、四川省科技计划等国家和省部级项目多项。受邀在美国化学会年会、美国材料学会年会、中国化学会年会、中国电化学会议等多个领域内重要学术会议做报告。 欢迎物理、化学、材料、电子等相关专业学生报考!

科研项目:  

研究成果:   Research area 1: Lithium ion battery 1. Xingyi Shi, Qingwei Sun, Bismark Boateng, Yinghua Niu, Yidong Han, Weiqiang Lv*, Weidong He*. A quasi-solid composite separator with high ductility for safe and high-performance lithium-ion batteries, Journal of Power Sources, 2019, 414, 225-232. 2. Ze Wu?, Weiqiang Lv?, Xinqun Cheng, Jinlong Gao, Zhengyi, Qian, Ji Li, Dong Tian, Weidong He, and Chunhui Yang. A nanostructured Si/SiOC composite anode with volume-change buffering microstructure for lithium ion batteries. Chemistry- A European Journal, 2019, 25(10): 2604-2609. (? Co-first Authors). 3. Weiqiang Lv, Jianmin Gu, Yinghua Niu, Kechun Wen, and Weidong He*. Gassing Mechanism and Suppressing Solutions in Li4Ti5O12-Based Lithium-Ion Batteries. Journal of the Electrochemical Society, 2017, 164 (12), A1-A12. 4. Weiqaing Lv, Xingyi Shi, Haichao Huang, Yinghua Niu, Wei Yang, Peng Liu, Wu Qin, Weidong He* High O/C ratio graphene oxide anode for improved cyclic performance of lithium ion batteries and the in-operando Raman investigation of its (de) lithiation. Materials Today Energy, 2017, 3: 40-44. 5. Weiqiang Lv, Yinghua Niu, Xian Jian, Kelvin H. L. Zhang, Wei Wang, Jiyun Zhao, Zhiming Wang, Weiqing Yang and Weidong He*. Space matters: Li+ conduction versus strain effect at FePO4/LiFePO4 interface. Applied Physics Letters, 2016, 108, 083901. 6. Tianyu Lei?, Wei Chen?, Weiqiang Lv?, Jianwen Huang, Jian Zhu, Junwei Chu, Chaoyi Yan, Chunyang Wu, Yichao Yan, Weidong He*, Jie Xiong*, Yanrong Li, Chenglin Yan, John B. Goodenough, Xiangfeng Duan*, Inhibiting Polysulfide Shuttling with a Graphene Composite Separator for Highly Robust Lithium-Sulfur Batteries, Joule, 2018, 2(10): 2091-2104. (? Co-first Authors). 7. Tianyu Lei, Wei Chen, Yin Hu, Weiqiang Lv, Xiaoxue Lv, Yichao Yan, Jianwen Huang, Yu Jiao, Junwei Chu, Chaoyi Yan, Chunyang Wu, Qiang Li*, Weidong He*, Jie Xiong*. Advanced Energy Materials, 2018, 8, 1802441. 8. Wei Chen?, Tianyu Lei?, Weiqiang Lv?, Yin Hu, Yichao Yan, Yu Jiao, Weidong He,* Zhenghan Li, Chenglin Yan,* and Jie Xiong* Atomic Interlamellar Ion Path in High Sulfur Content Lithium-Montmorillonite Host Enables High-Rate and Stable Lithium–Sulfur Battery. Advanced Materials, 2018, 1804084. (? Co-first Authors). 9. Jiarui He?, Weiqiang Lv?, Yuanfu Chen*, Jie Xiong*, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin and Weidong He*. Direct impregnation of SeS2 into a MOF-derived 3D nanoporous Co–N–C architecture towards superior rechargeable lithium batteries. Journal of Materials Chemistry A, 2018, 6(22): 10466-10473. (? Co-first Authors) 10. Jiarui He?, Weiqiang Lv?, Yuanfu Chen*, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin, and Weidong He*. Tellurium-Impregnated Porous Cobalt-Doped Carbon Polyhedra as Superior Cathodes for Lithium–Tellurium Batteries. ACS Nano, 2017, 11 (8), 8144–8152. (? Co-first Authors). 11. Jiarui He?, Weiqiang Lv?, Yuanfu Chen*, Jie Xiong*, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin, Weidong He*. Three-dimensional hierarchical C-Co-N/Se derived from metal-organic framework as superior cathode for Li-Se batteries. Journal of Power Sources, 2017, 363, 103-109. (? Co-first Authors) 12. Songhao Wu?, Gaoliang Fu?, Weiqiang Lv?, Jiake Wei, Wenjin Chen, Huqiang Yi, Meng Gu, Xuedong Bai, Liang Zhu, Chao Tan, Yachun Liang, Gaolong Zhu, Jiarui He, Xinqiang Wang, Kelvin HL Zhang, Jie Xiong*, and Weidong He*. A Single-step Hydrothermal Route to 3D Hierarchical Cu2O/CuO/rGO Nanosheets as High-performance Anode of Lithium Ion Batteries. Small, 2018.1702667: 1~8. (? Co-first Authors) 13. Songhao Wu?, Weiqiang Lv?, Tianyu Lei?, Yidong Han, Xian Jian, Min Deng, Gaolong Zhu, Mingzhen Liu, Jie Xiong*, James H. Dickerson, Weidong He*. Distinctive supercapacitive properties of copper and copper oxide nanocrystals sharing a similar colloidal synthetic route. Advanced Energy Materials, 2017, 1700105. (?Co-first Authors). 14. Muhammad Waqas, Shamshad Ali, Weiqiang Lv, Dongjiang Chen, Bismark Boateng, Weidong He* High-Performance PE-BN/PVDF-HFP Bilayer Separator for Lithium-Ion Batteries. Advanced Materials Interfaces. 2018, 1801330. 15. Muhammad Waqas, Chao Tan, Weiqiang Lv, Shamshad Ali, Bismark Boateng, Wenjin Chen, Zhaohuan Wei, Chao Feng, Junaid Ahmed, John B. Goodenough, Weidong He. A Highly‐Efficient Composite Separator with Strong Ligand Interaction for High-Temperature Lithium‐Ion Batteries. ChemElectroChem. 2018, 5, 2722. 16. Bismark Boateng, Gaolong Zhu, Weiqiang Lv, Dongjiang Chen, Chao Feng, Muhammad Waqas, Shamshad Ali, Kechun Wen, Weidong He. An Efficient, Scalable Route to Robust PVDF‐co‐HFP/SiO2 Separator for Long‐Cycle Lithium Ion Batteries. Physica Status Solidi RRL, 12: 1800319. 17. Dongjiang Chen, Kechun Wen, Weiqiang Lv, Zhaohuan Wei, Weidong He*. Separator Modification and Functionalization for Inhibiting the Shuttle Effect in Lithium‐Sulfur Batteries. Physica Status Solidi RRL, 2018, 12(10): 1800249. 18. Linheng He, Kechun Wen, Zuoxiang Zhang, Luhan Ye, Weiqiang Lv, Jipeng Fei, Shangqun Zhang and Weidong He*. Advanced materials for flexible electrochemical energy storage devices. Journal of Materials Research, 2018, 33(16): 2281-2296. 19. Wei Chen,?, Tianyu Lei,?, Tao Qian,?, Weiqiang Lv, Weidong He*, Chunyang Wu, Xuejun Liu, Jie Liu, Bo Chen, Chenglin Yan* and Jie Xiong*. A New Hydrophilic Binder Enabling Strongly Anchoring Polysulfides for High-Performance Sulfur Electrodes in Lithium Sulfur Battery. Advanced Energy Materials, 2018, 1702889. 20. Wei Chen?, Tianyu Lei?, Chunyang Wu?, Min Deng, Chuanhui Gong, Kai Hu, Yinchang Ma, Liping Dai, Weiqiang Lv, Weidong He*, Xuejun Liu, Jie Xiong* and Chenglin Yan*.Designing Safe Electrolyte System for High-Stability Lithium-Sulfur Battery. Advanced Energy Materials, 2018, 1702348. 21. Shamshad Ali, Chao Tan, Muhammad Waqas, Weiqiang Lv, Zhaohuan Wei, Songhao Wu, Bismark Boateng, Jingna Liu, Junaid Ahmed, Jie Xiong, John B. Goodenough*, Weidong He*. Highly Efficient PVDF‐HFP/Colloidal Alumina Composite Separator for High‐Temperature Lithium‐Ion Batteries. Advanced Materials Interfaces, 2018, 5(5): 1701147. 22. Ripeng Luo, Ce Wang, Zuoxiang Zhang, Weiqiang Lv, Zhaohuan Wei, Yanning Zhang, Xiaoyan Luo and Weidong He*. Three dimensional (3D) nanoporous PE-reinforced PVDF-HFP separator enabled by dual-solvent hierarchical gas liberation for ultrahigh rate lithium ion batteries. ACS Applied Energy Materials, 2018, 1(3): 921-927. 23. Jiarui He, Yuanfu Chen*, Weiqiang Lv, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin, Weidong He*. From Metal-Organic Framework to Li2S@ C-Co-N Nanoporous Architecture: A High-Capacity Cathode for Lithium-Sulfur Batteries. ACS Nano, 2016, 10 (12), 10981–10987. 24. Jiarui He, Yuanfu Chen, Weiqiang Lv, Kechun Wen, Chen Xu, Wanli Zhang, Wu Qin, and Weidong He. Three-Dimensional CNT/Graphene–Li2S Aerogel as Freestanding Cathode for High-Performance Li–S Batteries. ACS Energy Letters, 2016, 1, 820–826. 25. Jiarui He, Yuanfu Chen, Weiqiang Lv, Kechun Wen, Zegao Wang, Wanli Zhang, Yanrong Li, Wu Qin, and Weidong He. Three-Dimensional Hierarchical Reduced Graphene Oxide/Tellurium Nanowires: A High-Performance Freestanding Cathode for Li-Te Batteries. ACS Nano, 2016, 2016, 10 (9), 8837–8842. 26. Jiarui He, Yuanfu Chen, Weiqiang Lv, Kechun Wen, Pingjian Li, Zegao Wang, Wanli Zhang, Wu Qin, and Weidong He. Three-Dimensional Hierarchical Graphene-CNT@Se: A Highly Efficient Freestanding Cathode for Li–Se Batteries. ACS Energy Letters, 2016, 1 (1), 16–20. 27. Jiarui He, Yuanfu Chen, Weiqiang Lv, Kechun Wen, Pingjian Li, Fei Qi, Zegao Wang, Wanli Zhang, Yanrong Li, Wu Qin, Weidong He. Highly-flexible 3D Li2S/graphene cathode for high-performance lithium sulfur batteries. Journal of Power Sources, 2016, 327, 474–480. 28. Jiarui He, Pingjian Li, Weiqiang Lv, Kechun Wen, Yuanfu Chen, Wanli Zhang, Yanrong Li, Wu Qin, Weidong He. Three-dimensional hierarchically structured aerogels constructed with layered MoS2/graphene nanosheets as free-standing anodes for high-performance lithium ion batteries. Electrochimica Acta, 2016, 215, 12-18 29. Luhan Ye, Kechun Wen, Zuoxiang Zhang, Yachun Liang, Weiqiang Lv, Yukun Lin, Jianmin Gu, James H. Dickerson, Weidong He. Highly-efficient materials assembly via electrophoretic deposition for electrochemical energy conversion and storage devices. Advanced Energy Materials, 2016, 6: 1502018. Highlighted as Journal Cover. 30. Weidong He, Luhan Ye, Kechun Wen, Yachun Liang, Weiqiang Lv, Gaolong Zhu, Kelvin HL Zhang. Materials Research Advances towards High-Capacity Battery/Fuel Cell Devices. Journal of Electronic Science and Technology. 2016, 1, 004. 31. Gaolong Zhu, Kechun Wen, Weiqiang Lv, Xingzhi Zhou, Yachun Liang, Fei Yang, Zhilin Chen, Minda Zou, Jinchao Li, Yuqian Zhang, Weidong He*. Materials insights into low-temperature performances of lithium-ion batteries. Journal of Power Sources, 2015, 300: 29-40. 32. Luhan Ye, Weiqiang Lv, Weidong He*. Lithium-air batteries: Performance interplays with instability factors. ChemElectroChem, 2015, 2(3): 312-323. Research area 2: Fuel cells 1. Weidong He*, Weiqiang Lv, James H. Dickerson. Gas transport in solid oxide fuel cells. Springer, 2014, ISBN: 978-3-319-09736-7. Contributed to book chapter 2 and 4. 2. Yinghua Niu?, Weiqiang Lv?, Dongjiang Chen, Jiecai Han, Weirong Huo and Weidong He* A model study on correlation between microstructure-gas diffusion and Cr deposition in porous LSM/YSZ cathodes of solid oxide fuel cells 3. Yinghua Niu?, Weiqiang Lv?, Zhaohuan Wei, Weirong Huo and Weidong He*. Synergistic effects of sulfur poisoning and gas diffusion on polarization loss in anodes of solid oxide fuel cells. AIChE Journal, 2017, 64(3):1127~1134. (? Co-first Authors) 4. Yinghua Niu?, Weiqiang Lv?, Kechun Wen, Xingyi Shi, Weidong He*. On the polarization loss induced by thermal expansion in solid oxide fuel cells. Solid State Ionics, 2017, 311, 63-68. (? Co-first Authors) 5. Yinghua Niu?, Weiqiang Lv?, Xingzhi Zhou, Weirong Huo, Luhan Ye, Weidong He*. Gas leak diffusion induced polarization in submicro/nanoscale non-tight electrolytes of solid oxide fuel cells. RSC Advances. 2016, 67(6), 62052-62061. (?co-first authors.) 6. Chao Feng?, Jipeng Fei?, Kechun Wen?, Weiqiang Lv, Muhammad Waqas, Weidong He*. Ionic conductivity evolution of isotropic crystal with double strained interfaces. Solid State Ionics, 2017 303: 167-171. 7. Luhan Ye?, Weiqiang Lv?, Yiwu Mao, Pengfei Yan and Weidong He*. An electrochemical device for the Knudsen and bulk diffusivity measurement in the anodes of solid oxide fuel cells. International Journal of Hydrogen Energy, 2014, 39(27): 5057–15062. (?co-first authors.) 8. Weiqiang Lv, Na Feng, Yinghua Niu, Fei Yang, Kechun Wen, Minda Zou, Yupei Han, Jiyun Zhao, Weidong He. Crystal-isotropicity dependence of ionic conductivity enhancement at strained interfaces. Solid State Ionics, 2016, 289, 168–172. 9. Weiqiang Lv, Na Feng, Weirong Huo, Yinghua Niu, Siyuan Wang, Xiaoning Wang, Yachun Liang, Gaolong Zhu, Weidong He*. Advanced oxygen-sensing for accurate gas diffusivity measurement in fuel cells. ChemElectroChem, 2015, 2(6), 819-823. 10. Yinghua Niu, Weiqiang Lv, Gaofeng Rao, Weidong He, Jiarui He. A critical look into effects of electrode pore morphology in solid oxide fuel cells. AIChE Journal, 2017, 63(6): 2312-2317. 11. Weirong Huo, Luhan Ye, Weiqiang Lv, Yinghua Niu, Fei Yang, Muhammad Waqas, Weidong He*. Reduced electrochemical performances of proton exchange membrane fuel cells due to gaseous diffusion in electrolytes. RSC Advances, 2016, 6, 97194-97198. 12. Yupei Han, Minda Zou, Weiqiang Lv, Yiwu Mao, Wei Wang, Weidong He. Three-dimensional ionic conduction in the strained electrolytes of solid oxide fuel cells. Journal of Applied Physics. 2016, 119(17), 174904. 13. Minda Zou, Fei Yang, Weiqiang Lv, Kechun Wen, Weidong He*. Ionic conductivity evolution at strained crystal interfaces in solid oxide fuel cells. International Journal of Hydrogen Energy, 2016, 41(47): 22254-22259. 14. Kechun Wen, Weiqiang Lv, Weidong He. Interfacial lattice-strain effects on improving the overall performance of micro-solid oxide fuel cells. Journal of Materials Chemistry A. 2015, 3(40): 20031-20050. 15. Luhan Ye, Xiaoning Wang, Weiqiang Lv, Weidong He*. Analytical insight into the oxygen diffusion in wetted porous cathodes of Li-air batteries, Energy, 2015, 93: 416-420. 16. Zuoxiang Zhang, Junyi Cui, Shangqun Zhang, Weiqiang Lv, Fei Yang, Kechun Wen, Kelvin H.L. Zhang, John B. Goodenough, Weidong He*. Gas convection in fuel cells: An overlooked factor. Electrochimica Acta, 2015, 176: 1476-1483. 17. Luhan Ye, Weiqiang Lv, Kelvin HL Zhang, James H. Dickerson, Weidong He*. A new insight into the oxygen diffusion in porous cathodes of lithium-air batteries. Energy, 2015, 83: 669-673. 18. Kechun Wen, Yupei Han, Minda Zou, Weiqiang Lv, Weidong He* Interfacial strain effect on gas transport in nanostructured electrodes of solid oxide fuel cells. Journal of Power Sources, 2015, 291,126-132. 19. Kechun Wen, Kelvin HL. Zhang, Wei Wang, Junhao Lin, Weiqiang Lv, Bin Wang, Zhiming M. Wang, James H. Dickerson, Xin Guo, Weidong He*. Physical justification for ionic conductivity enhancement at strained coherent interfaces. Journal of Power Sources, 2015, 1(1), in press. DOI: 10.1016/j.jpowsour.2015.02.089. 20. Xiaoning Wang, Kechun Wen, Yuanqiang Song, Luhan Ye, Kelvin H.L. Zhang, Yu Pan, Weiqiang Lv, Yulong Liao, Weidong He* Gas transport evaluation in lithium-air batteries with micro/nano-structured cathodes. Journal of Power Sources, 2015, 274, 762-767. 21. Weidong He, Xiao Lin, Weiqiang Lv, James H. Dickerson. Electrochemical devices with optimized gas tightness for the diffusivity measurement in fuel cells. International Journal of Hydrogen Energy, 2014, 39(5), 2334-2339. Research area 3: Nanocrystal growth mechanism and functional nanocrystals 1. Li Tian, Yunfei Shang, Shuwei Hao*, Qi Han, Tong Chen, Weiqiang Lv*, and Chunhui Yang* Constructing a “Native” Oxyfluoride Layer on fluoride Particles for Enhanced Upconversion Luminescence. Advanced Functional Materials. 2018, 1803946.( * corresponding author) 2. Weiqiang Lv, Xuemei Yang, Wei Wang, Yinghua Niu, Zhongping Liu, Weidong He. An Energy Investigation into 1D/2D Oriented‐Attachment Assemblies of 1D Ag Nanocrystals. ChemPhysChem, 2014, 15(13): 2688-2691. 3. Yu Pan,? Weiqiang Lv,? Yinghua Niu, Kechun Wen, Xiaorong Hou, Jianmin Gu, Minda Zou, Luhan Ye, Wei Wang, Kelvin HL Zhang,* Weidong He*. Initial-stage oriented-attachment one-dimensional assembly of nanocrystals: Fundamental insight with a collision-recrystallization model. RSC Advances, 2015, 5(67): 54605-54612. (?co-first authors.) 4. Xiaorong Hou?, Weiqiang Lv?, Xian Jian, Kechun Wen, Yinghua Niu, Minda Zou, Xingzhi Zhou, Weidong He*. Insights into van der Waals interaction between nanotubes and planar surfaces. Materials Today Physics, 2017, 2, 35–39. (? Co-first Authors). 5. Gaofeng Rao?, Xian Jian?*, Weiqiang Lv?, Gaolong Zhu, Jie Xiong*, Weidong He*. A Highly-efficient Route to Three-dimensional Nanoporous Copper Leaves with High Surface Enhanced Raman Scattering Properties. Chemical Engineering Journal, 2017, 321, 394-400. (Co-first authors) 6. Weiqiang Lv, Weidong He*, Xiaoning Wang, Yinghua Niu, James H. Dickerson, Zhiguo Wang. Understanding the Oriented-attachment Growth of Nanocrystals from an Energy Point of View: A review, Nanoscale, 2014,6, 2531-2547. 7. Weiqiang Lv, Yaxing Zhu, Yinghua Niu, Weirong Huo, Kang Li, Gaolong Zhu, Yachun Liang, Wenzhan Wu and Weidong He*. Assembly of anisotropic one dimensional Ag nanostructures through orientated attachment: on-axis or off-axis growth? RSC Advances, 2015, 5, 20783-20787. 8. Weiqiang Lv, Weirong Huo, Yinghua Niu, Yaxing Zhu, Yutao Xie, Xuyun Guo, Weidong He*. Oriented-attachment dimensionality build-up via van der Waals interaction. CrystEngComm, 2015, 17, 729-733. 9. Yunfei Shang, Shuwei Hao*, Weiqiang Lv, Cheng Tong, Tian Li, Zuotao Lei and Chunhui Yang*.Confining Excitation Energy of Er3+-Sensitized Upconversion Nanoparticles through Introducing Various Energy Trapping Centers. Journal of Materials Chemistry C, 2018, 6, 3869-3875. 10. Ce Wang, Chao Tan, Weiqiang Lv, Gaolong Zhu, Zhaohuan Wei, Kelvin HL Zhang* and Weidong He*. Coherent Bi2O3-TiO2 hetero-junction material through oriented growth as an efficient photo-catalyst for methyl orange degradation. Materials Today Chemistry, 2018, 8, 36–41. 11. Gaolong Zhu, Wei Yang, Weiqiang Lv, Jiarui He, Kechun Wen, Weirong Huo, Jun Hu, Muhammad Waqas, James H. Dickerson, Weidong He*. Facile electrophoretic deposition of functionalized Bi2O3 nanoparticles. Materials & Design, 2017, 116: 359-364. 12. Xian Jian, Guo-Zhang Chen, Hongyang Liu, Nasir Mahmood, Shibu Zhu, Liang-Jun Yin, Hui Tang, Weiqiang Lv, Weidong He, Kelvin Hong Liang Zhang, Qun Zeng, Baihai Li, Xuesong Li, Wanli Zhang, Xiaolin Wang. Vapor-dissociation-solid Growth of 3D Graphite-like Capsules with Delicate Morphology and Atomic-level Thickness Control. Crystal Growth & Design, 2016,16(9): 5040-5048 13. Hui Tang, Xian Jian*, Biao Wu, Shiyu Liu, Zhicheng Jiang, Xiangnan Chen, Weiqiang Lv, Weidong He* et al. Fe3C/helical carbon nanotube hybrid: Facile synthesis and spin-induced enhancement in microwave-absorbing properties. Composites Part B: Engineering, 2016, 107, 51-58. 14. Xuyun Guo, Weiqiang Lv, Xiaoyuan Li. Additive-Free Shape-Invariant Nano-to-Micron Size-Tuning of Cu2O Cubic Crystals by Square-Wave Voltammetry. The Journal of Physical Chemistry C, 2014. 118 (20), 11062–11077. 15. Yuanqiang Song*, Aifang Liu, Chunhong Mu, Weirong Huo, Weiqiang Lv, Weidong He. A Facile and Scalable Route to Nano-crystallized Kesterite Cu2ZnSnS4 Fibers via Electrospinning/sulfurization. Materials Research Bulletin 2015, 61, 504–510. 16. Yuanqiang Song, Xian Jian, Yu Pan, Bo Wang, Weirong Huo, Aifang Liu, Weiqiang Lv and Weidong He. Length Evolution of Helical Micro/nano-scale Structures. RSC Advances, 2014, 4, 31308-31312. 17. Junfan Li, Kechun Wen, Weidong He, Xiaoning Wang, Weiqiang Lv, Yuanqiang Song, Hongliang Lu, Xiao Lin, James H. Dickerson. Coulombic interaction in the colloidal oriented-attachment growth of tetragonal nanorods. Chinese Physics B, 2014, 23(5), 056103. 18. Hailong Qiu, Liang Sun, Shuo Tan, Shuwei Hao, Yong Yu. Weiqiang Lv, Shibin Ge, Chunhui Yang*. Controlled Synthesis and Up-Conversion Emission of Rare-Earth Tri-Doped NaYF4 Nanocrystals Under Femtosecond-Laser Excitation. Journal of Nanoscience and Nanotechnology, 2011, 11(9): 7700-7708. 19. Weiqiang Lv, Chunhui Yang *, Liang Sun, Chongqiang Zhu, Yu Sun. First Principle Calculation of Electronic Structure and Optical Properties of CdGeAs2, Chinese Journal of Structure Chemistry, 2009, 28(05): 553-558. 20. Tianhui Ma, Chunhui Yang*, Ying Xie, Liang Sun, Weiqiang Lv, Rui Wang, Yulan Ren. First-principles Calculations of the Structural, Elastic, Electronic and Optical Properties of Orthorhombic LiGaS2 and LiGaSe2. Physica B-condensed matter. 2010, 405(1):363-368. 21. Tianhui Ma, Chunhui Yang*, Ying Xie, Liang Sun, Weiqiang Lv, Rui Wang, Chongqiang Zhu, Meng Wang. Electronic and Optical Properties of Orthorhombic LiInS2 and LiInSe2: A Density Functional Theory Investigation. Computational Materials Science, 2009, 47(1): 99-105. 22. Chongqiang Zhu, Chunhui Yang, Rui Wang, Weiqiang Lv, Yu Sun, Meng Wang. Synthesis and Growth of Cadmium Germanium Arsenide Crystal, Journal of Synthetic Crystals, 2007,36(4): 947-949.

专业研究方向:  
专业名称 研究方向 招生类别
070200物理学 02凝聚态物理 博士
070200物理学 02凝聚态物理 硕士
085400电子信息 18电子信息工程 硕士


学院列表
01  信息与通信工程学院
02  电子科学与工程学院
03  材料与能源学院
04  机械与电气工程学院
05  光电科学与工程学院
06  自动化工程学院
07  资源与环境学院
08  计算机科学与工程学院
09  信息与软件工程学院
10  航空航天学院
11  数学科学学院
12  物理学院
13  医学院
14  生命科学与技术学院
15  经济与管理学院
16  公共管理学院
17  外国语学院
18  马克思主义学院
21  基础与前沿研究院
22  通信抗干扰技术国家级重点实验室
23  电子科学技术研究院
28  深圳高等研究院