吕维忠 职务：深圳大学龙岗创新研究院院长
职称：教授
个人课题组：吕维忠课题组
办公电话：
EMAIL：lvwzh@szu.edu.cn weizhonglv@163.com


基本信息
?研究领域
代表论著
科研项目
荣誉获奖




The WEIZHONG LYU research group at Shenzhen University
深圳大学吕维忠教授课题组
Welcome to the LYU research group in the College of Chemistry and Environmental Engineering at Shenzhen University.
招聘博士后：欢迎纳米能源材料、纳米催化及电极材料、电化学能源储存与转化等相关研究背景的博士后加盟本课题组。
Postdoctoral Positions：Postdoctoral positions are available in research areas of nano energy materials, nanocatalytic electrode and battery materials, electrochemical energy conversion and storage systems. etc.
招收硕士研究生：欢迎具有化学、化学工程、材料科学与工程、能源科学与工程等专业学生加盟！
Graduate Students：Graduate students with the background of chemistry, chemistry engineering, materials science and engineering, energy science and engineering are welcomed to join us.
吕维忠，男（1971年生），江西省兴国县人，化学工程专业博士，教授（2010年）。深圳大学龙岗创新研究院院长。1999年9月开始在华南理工大学化学工程研究所攻读博士，2002年6月获得化学工程专业博士学位。2002.7开始在深圳大学从事教学与科研工作。2010年浙江大学材料科学与工程学系博士后出站。英国伦敦大学学院、韩国大田大学访问****。
主要从事纳米能源材料、纳米催化及电极材料、电化学能源储存与转化、纳米功能涂层与薄膜的研究与开发工作。先后主持国家科技计划项目、广东省科技计划重点项目、深圳市技术攻关及基础布局项目、企业委托横向研究项目几十项。
在JCR 1区等国内外学术期刊发表学术论文100多篇，SCI、EI收录60多篇。获得授权国家发明专利16项，申请国际PCT专利5件。以第一编著者在“化学工业出版社”等出版社出版论著或教材3部；主编或者参编国家及行业标准2部。
WEIZHONG LYU, Male, Born in 1971, Ph.D and Professor.
1989.9-1993.6Nanchang University, Bachelor, Fine Chemical Engineering;
1993.7-1996.8Shaoguan University, Teacher, Chemical Engineering Department;
1996.9-1999.8South China University of Technology, Master, Applied Chemistry;
1999.9-2002.6South China University of Technology, Doctor, Chemical Engineeringy;
2002.7-2016.6Shenzhen University, Professor, College of Chemistry and Environmental Engineering;
2016.7-presentLonggang Innovation institute of Shenzhen University，Dean and Professor.

Postgraduate Students （研究生）


Lili Liao
廖丽丽
Email:
liaolili716@126.com

Xushan Huang
黄旭珊
Email:
@qq.com


Xi Huang
黄希
Email:
@qq.com

Fenbo Ma
马粉波
Email:
mafb@mail.sustc.edu.cn


Qian Wan
万谦
Email:
@qq.com

Yan Tan
谭艳
Email:
@qq.com


Zefei Su
苏泽飞
Email:
@qq.com

Dezhen Huang
黄德贞
Email:
@qq.com


Yunlong Song
宋云龙
Email:
@qq.com

Zhijun Wu
吴志军
Email:
wzjwuzhijun@126.com


Xuechang Fan
范学常
Email:
@qq.com

Yake Wang
王亚可
Email:
@qq.com


Xiaochu Zhou
周小楚
Email:
@qq.com

Wenke Ruan
阮文科
Email:
@qq.com


Weimeng Zheng
郑威猛
Email:
@qq.com

Junsheng Wang
王俊生
Email:
@qq.com


Liangpu Li
厉良普
Email:
@qq.com

YongzeXie
谢永泽
Email:
@qq.com


Chunbo Huang
黄春波
Email:
@qq.com

Qiaoting Zhou
周俏婷
Email:
@qq.com


Tianzi Zhou
周天滋
Email:
@qq.com

Yue Hua
华悦
Email:
@qq.com


Xinli Yue
乐新利
Email:
@qq.com

Lu Yan
晏璐
Email:
@qq.com


Ziting Peng
彭姿婷(2019级)
Email:
@qq.com

Sisi Xu
许思思(2019级)
Email:
@qq.com





1.纳米能源材料
2.纳米催化及电极材料
3.电化学能源储存与转化
4.纳米功能涂层与薄膜

1.Nano energy materials
2.nanocatalytic electrode and battery materials
3.electrochemical energy conversion and storage systems
4.functional coating and membrane.






List of representative publications / 代表论文:
1. Solvent-Enhanced Transparent Stretchable Polymer Nanocomposite Electrode for Supercapacitors[J]. ACS Appl. Energy Mater. 2021, 4, 2266?2274.
2. Molecular simulation of zwitterionic polypeptides on protecting glucagon-like peptide-1 (GLP-1)[J]. International Journal of Biological Macromolecules, 2021 (4): 519–526.
3. Mechanism of Cs_0.33Ta_xW_1-xO₃ in improving the optical property[J]. Materials Chemistry and Physics, 2020, 250: 122992.
4. Boron doped M-phase VO₂ nanoparticles with low metal-insulator phase transition temperature for smart windows[J].Ceramics International,2020,46(4): 4786-479.
5. Photoelectrochemical immunosensor based on CdSe@BiVO₄ Co-sensitized TiO₂ for carcinoembryonic antigen[J]. Biosensors and Bioelectronics,2020,150(15): 111949.
6. 钨掺杂二氧化钒/石墨烯复合物的制备及性能[J].精细化工，2020, 37(8)：1574-1579.
7. 溶胶-凝胶辅助水热法制备硼掺杂纳米 VO₂粉体[J].稀有金属材料与工程, 2020,49(04):1325-1330.
8. Synthesis and characterization of F/Mn co-doped SnO₂ nanoparticles by hydrothermal method[J]. Rare Metal Materials and Engineering,2020,49(04): 1126-1130.
9. 碱钨青铜粉体的溶胶-凝胶法合成与表征[J].稀有金属材料与工程, 2020,49(04):1331-1336.
10. Cyclic Voltammetric and Quantum Chemical Studies of a Poly(methionine) Modified Carbon Paste Electrode for Simultaneous Detection of Dopamine and Uric Acid. Chemosensors, 2019, 7(2): 24-41.
11. Significant change in optical and thermochromic properties for VO₂ films post-treated by low-energy argon ions. Optical Materials Express,2019,9(4) : 1979-1989.
12. New route for modification of thermochromic properties of vanadium dioxide films via high-energy X-ray irradiation[J]. Ceramics International,2019,2(45): 1661-1669.
13. Thickness-modulated thermochromism of vanadium dioxide thin films grown by magnetron sputtering. Surface and Coatings Technology, 2019, 359: 396-402.
14. Notable Enhancement of Phase Transition Performance and Luminous Transmittance in VO₂ Films via Simple Method of Ar/O Plasma Post-Treatment. Nanomaterials,2019, 9(1): 102-110.
15. VO₂ thin films with low phase transition temperature grown on ZnO/glass by applying substrate DC bias at low temperature of 250℃[J]. Applied Surface Science, 2018, 453:23-30.
16. Phase transition analysis of thermochromic VO₂, thin films by temperature-dependent Raman scattering and Ellipsometry. Applied Surface Science, 2018, 456：545-551.
17. Thermochromic and Femtosecond-Laser-Induced Damage Performance of Tungsten-Doped Vanadium Dioxide Films Prepared Using an Alloy Target. Materials, 2018, 11(9),1724.
18. Enhanced visible transmittance and reduced transition temperature for VO₂ thin films modulated by index-tunable SiO₂ anti-reflection coatings. RSC Adv, 2018,8（51）：28953-28959.
19. Impact of molar ratio of total metal ions to precipitant on YAG:Ce nanophosphors synthesized by reverse titration coprecipitation. Ceramics International, 2017, 43（12） ：8730-8734.
20. Synthesis of hierarchical three-dimensional CuO spindles for highly sensitive glucose determination. Iet Micro & Nano Letters, 2016, 11（12）：870-875.
21. Employing TiO₂, buffer layer to improve VO₂, film phase transition performance and infrared solar energy modulation ability. Journal of Alloys & Compounds, 2016, 684：719-725.
22. Click crosslinking improved waterborne polymers for environment-friendly coatings and adhesives. Acs Appl Mater Interfaces , 2016 , 8（27） ：17499.
23. Platinum-tin nanowires anchored on a nitrogen-doped nanotube composite embedded with iron/iron carbide particles as an ethanol oxidation electrocatalyst. Journal of the Electrochemical Society, 2015, 162（1）：H79-H85.
24. Amorphous PtNiP particle networks of different particle size for the electro-oxidation of hydrazine. Rsc Advances, 2015, 5（58）：68655-68661.
25. Control of CuO nanocrystal morphology from ultrathin “willow-leaf” to “flower-shaped” for increased hydrazine oxidation activity. Journal of Power Sources, 2015, 300：344-350.
26. Sponge-like carbon containing nitrogen and iron provides a non-precious oxygen reduction catalyst. J Solid State Electrochem, 2015, 19：1181-1186.
27. Ultrathin willow-like CuO nanoflakes as an efficient catalyst for electro-oxidation of hydrazine. Journal of Power Sources, 2015, 289：22-25.
28. Al₂O₃ coated LiNi_1/3Co_1/3Mn_1/3O₂ cathode material by sol–gel method: Preparation and characterization. Ceramics International，2014，40（7）：10511-10516.
29. Synthesis and characterization of Mo-W co-doped VO₂(R) nano-powders by microwave-assisted hydrothermal method. Ceramics International，2014，40（8）：12661-12668.
30. Sonochemical synthesis of cobalt aluminate nanoparticles under various preparation parameters. Ultrasonics Sonochemistry，2010，17（5）：793-801.
31. Hydrothermal synthesis and characterization of novel PbSe dendritic structures. Journal of Alloys and Compounds，2010，493（1-2）：358-361.
32. Effect of processing conditions on sonochemical synthesis of nanosized copper aluminate powders. Ultrasonics Sonochemistry，2010，17（2）：344-351.
窗体顶端

List of Patent / 授权发明专利:
窗体底端
1.一种氧化锡铋水性光谱选择性纳米涂料及其制备方法，ZL 1.7
2.一种铋掺杂二氧化锡纳米粉体的制备方法，ZL 3.1
3.一种镱掺杂BTO纳米粉体及其制备方法和应用，ZL 5.0
4.一种钼钨共掺杂二氧化钒粉体及其制备方法，ZL 1.4
5.一种纳米钨酸铯粉体及其制备方法与应用，ZL 9.9
6.钙钛矿型复合物石墨烯复合材料及其制备方法与应用，ZL 9.6
7.F/Mn共掺杂SnO₂纳米粉体及其制备方法，ZL9.X
8.改性F_xM_ySn_1-x-yO₂纳米粉体及改性水性聚氨酯乳液的制备方法，ZL 1.9
9.水性聚碳酸酯改性硅溶胶复合涂料及其制备方法 ZL 9.2
10.水性聚碳酸酯改性硅溶胶乳液及其制备方法授权，ZL 5.4
11.石墨烯掺杂改性纳米钙钛矿型La_1-xSr_xMnO₃复合材料及其制备方法和应用，ZL 3.7
12.一种用于将SMT激光模板制备成纳米模板的制备装置，ZL 3.5
13.一种改性纳米微胶囊增强节能保温墙体材料，ZL 2.3
14.一种三维石墨烯及其制备方法与应用，ZL 8.8
15.三维蜂窝状类石墨烯非金属催化剂及制备方法与应用，ZL 2.1
16.一种硼镁共掺杂 VO₂粉体及其制备方法和应用，ZL 2.3




Research projects/科研项目:
（1）稀土掺杂纳米二氧化锡的制备、光学性能及应用研究，国家科技计划项目。
（2）钨酸铯隔热纳米粉体、浆料的研制及其产业化，广东省科技计划重点项目。
（3）智能温控涂膜隔热玻璃关键材料与工艺的研发及产业化，广东省科技计划重点项目。
（4）多功能纳米生物复合敷料的制备、性能及其应用研究，深圳市国际科技合作项目。
（5）光谱选择性纳米粉体的可控制备及应用技术研究，深圳市基础研究项目。
（6）纳米钙钛矿型La_1-xSr_xMnO₃催化剂的制备及电催化特性研究，深圳市基础研究项目。


Research Foundations / 研究基金：
National Science and Technology Planning Project,
Major Science and Technology Project of Guangdong Province,
Shenzhen Municipal Basic Layout and Technology Breakthrough Project,
Cross-sectional Project with Enterprises,
Shenzhen international science and technology cooperation project




荣誉及获奖：
1、获“科学中国人年度人物”（2016年，新材料领域）
2、中国产学研合作创新奖（2017年）
3、浙江省科技进步三等奖1项
4、深圳市自然科学二等奖1项
5、首届中国（深圳）创新创业大赛二等奖1项
6、南山创业之星大赛优胜奖1项

社会兼职：
1、中国化工学会精细化工专业委员会常务委员
2、EI收录/中文核心期刊《精细化工》编委
3、中国硅酸盐学会溶胶-凝胶分会理事
4、深圳市涂料技术学会副会长

Honer and Awards:
1.Honor of "Chinese People of the Year" in the area of new materials in the year of 2016
2.Industry-University-Research Cooperation Innovation Award
3.The 3rd Prize in technology innovation in Zhejiang Province
4.The 2nd prize in Natural Science Award in Shenzhen City
5.The 2nd prize in the first China(Shenzhen) Innovation and Entrepreneurship Competition
6.WinningPrize for Entrepreneurship Star in Nanshan District

Social Title：
1.Executive Committee Member of China Chemical Society-fine chemical Professional Committee
2.Editorial Board Member in periodical of FINE CHEMICALS (Chinese core magazine, EI inclusion)
3.Member of council in Sol-Gel Committee of the Chinese Ceramic Society
4.Vice president of Shenzhen Institute of Coating Technology