芦露华，1981年3月，中国地质大学（武汉）材料与化学学院，教授。

学习经历：2000年就读武汉理工大学材料学院，2007年获得材料学硕士研究生学位，同年考入中国科学院苏州纳米所，2010年获得物理化学理学博士学位并获得中科院院长奖。

工作经历：2010在苏州纳米所国际实验室/中科大联合培养博士后，2012年调职入武汉理工大学材料复合新技术国家重点实验室任副研究员，2014年调入中国地质大学（武汉）材化学院任教授，工作至今。

研究领域：围绕新能源技术领域开展碳基材料的规模化制备技术研究，包括：针对锂离子电池和燃料电池动力技术的电极材料设计和批量化制备技术（企业联合技术研发，湖北省科技厅支撑，项目总金额600万），面向环境净化和绿色太阳能能源转化高活性碳基复合催化（水分解，氧还原，有机污染物去除，微生物去除等）材料设计（研究机构合作应用基础研究），仿生功能材料探索性研究（基础研究）。相关课题欢迎有创新意识的本科生报考研究生，加入课题组完成相关工作，课题组提供有竞争力的各方面经费支持。

基金项目：承担国家自然科学基金，浙江省自然基金重点项目，湖北省科技厅重点研发专项，江苏省自然科学基金，中央高校专项资金等科研项目，并与香港理工大学，清华大学富士康中心，中科院化学所等研究机构合作完成研究任务。企业联合研发项目主要围绕高性能电池电极材料批量化制备技术开展。

学术成果：2010年至今，在国际权威期刊发表SCI论文80余篇。常年担任JACS, Applied Catalysis B: Environmental, Nanoscale, J. Mater. Chem. A, Dalton Transaction等国际期刊审稿人。2010年至今部分代表性研究论文选列：

1．Muye Liu, Qi Kang, Zhicheng Xie, Luhua Lu*, Kai Dai, Graham Dawson, Heterostructure nanocomposite with local surface plasmon resonance effect enhanced photocatalytic activity—a critical review, Journal of Physics D: Applied Physics, 2022, 55 043002 （国际合作发表综述论文）

2．Ziqi Li, Qi Kang, Luhua Lu, Wenbo Li, Yuliang Li, and Wei Chen, Graphdiyne-Based Electrochemical Emissivity Modulator, J. Phys. Chem. C 2022, 126, 30, 12680–12688 （与港理工合作发表研究论文）

3．Jinghai Liu, Lei Ji, Xia Wang, Limei Duan, Jiaqi Zhou, Yongfeng Jia, Simei Zeng, Keke Huang,* Zhibin Geng, Xiyang Wang, Changmin Hou, Xiaofeng Wu, Luhua Lu,* Zhili Pei, Yongsheng Chen, Jun Zhang, Shouhua Feng, Yuegang Zhang, Commercial-Level Energy Storage via Free Standing Stacking Electrodes, Matter, 2019, 1, 1694-1709. 影响因子：15.589

4．Mimi Dai, Haiyan Fan, Guoguang Xu, Min Wang, Si Zhang, Luhua Lu*, Yuegang Zhang, Boosting electrocatalytic oxygen evolution using ultrathin carbon protected iron-cobalt carbonate hydroxide nanoneedle arrays, Journal of Power Sources, 2020, 450, 227639. 影响因子：9.127 (与中科院合作发表)

5．Porous carbon nitride with defect mediated interfacial oxidation for improving visible light photocatalytic hydrogen evolution, Applied Catalysis B: Environmental 2018, 232, 384-390. 影响因子：19.503

6．Boosting visible light photocatalytic hydrogen evolution of graphitic carbon nitride via enhancing it interfacial redox activity with cobalt/nitrogen doped tubular graphitic carbon, Applied Catalysis B: Environmental 2018, 225, 512-518. 影响因子：19.503

7．Biomass chitosan derived cobalt/nitrogen doped carbon nanotubes for the electrocatalytic oxygen reduction reaction, J. Mater. Chem. A 2018, 6, 5740–5745. 影响因子：12.732

8. Highly defective graphite for scalable synthesis of nitrogen doped holey graphene with high volumetric capacitance, Journal of Power Sources 2016, 334, 104-111. 影响因子：9.127  (与中科院合作发表)

9．Graphene-Stabilized Silver Nanoparticle Electrochemical Electrode for Actuator Design, Advanced Materials 2013，25, 1270-1274. 影响因子：30.849，被中华人民共和国中央政府网站和《中国科学报》2012年12月5日在头版报道。

10．Highly Stable Air Working Bimorph Actuator Based on a Graphene Nanosheet/Carbon Nanotube Hybrid Electrode, Advanced Materials 2012, 4, 4317-4321. 影响因子：30.849，作为当期内封面文章出版。

11. Self-regenerated solar-driven photocatalytic water-splitting by urea derived graphitic carbon nitride with platinum nanoparticles, Chem. Commun. 2012, 48, 8826-8828. (国际上首次通过尿素合成石墨相碳氮化合物，引用超500次)

12．Large volume variation of anisotropic graphene nanosheet electrochemical mechanical actuator under low voltage stimulation, Chem. Comm. 2012, 8, 3978-3980. 影响因子：6.290 

13．Biocompatible Composite Actuator from Supramolecular Structure of Biopolymer Chitosan, Carbon nanotube and Ionic liquid, Advanced Materials 2010, 22, 3745–3748. 影响因子：30.849，自然出版集团 NPG-Asia materials期刊专题报道 (Artificial muscle: closer to nature, NPG Asia Materials 2010, 8 doi:10.1038/asiamat.2010.126). 

14．Enhanced electrochemical energy storage performance of reduced graphene oxide by incorporating oxygen-rich in-plane pores, J. Mater. Chem. A 2014, 2, 1802-1808. 影响因子：12.732

15．Large-Scale Aligned Carbon Nanotubes from Their Purified, Highly Concentrated Suspension, ACS Nano 2010, 4, 1042-1048. 影响因子：15.881

16．Supramolecular Self Assembly of Biopolymer with Carbon Nanotubes for Bio-mimetic and Bio-inspired Sensing and Actuation, feature article, Nanoscale 2011, 3, 2412-2420. 影响因子：7.233

17. Carbon Nitride Supramolecular Hybrid Material Enabled High-Efficiency Photocatalytic Water Treatments, Nano Letters, 2016, 16, 6568-6575. 影响因子：12.080

18. Impact of size on energy storage performance of graphene based supercapacitor electrode, Electrochimica Acta, 2016, 219, 463-469. 影响因子：5.116 

19. A Graphene-like Oxygenated Carbon Nitride Material for Improved Cycle-Life Lithium/Sulfur Batteries, Nano Letters, 2015, 15, 5137−51. 影响因子：12.080

20． Heterojunction of facet coupled g-C₃N₄/surface-fluorinated TiO₂ nanosheets for organic pollutants degradation under visible LED light irradiation, Applied Catalysis B: Environmental 2014, 156-157, 331-340. 影响因子：5.825 

21． In situ assembly of MnO2 nanowires/graphene oxide nanosheets composite with high specific capacitance, Electrochimica Acta 2014, 116, 111-117. 影响因子：5.116

22．Graphene oxide capturing surface-fluorinated TiO₂ nanosheets for advanced photocatalysis and the reveal of synergism reinforce mechanism, Dalton Trans. 2014, 43, 2202-2210. 影响因子：4.099

23．Sonication assisted preparation of graphene oxide/graphitic-C₃N₄ nanosheet hybrid with reinforced photocurrent for photocatalyst application, Dalton Trans. 2014, 43, 6295-6299. 影响因子：4.099

24. Facile synthesis of a surface plasmon resonance enhanced Ag/AgBr heterostructure and its photocatalytic performance with 450 nm LED illumination, Dalton Trans. 2013, 2, 4657-4662. 影响因子：4.099

25. Tuning optical and electronic properties of star-shaped conjugated molecules with enlarged pi-delocalization for organic solar cell application, Journal of Materials Chemistry A 2013, 1, 8270-8279. 影响因子：9.931

26. Taking the place of perylene diimide: Perylene tetracarboxylic tetraester as a building block for polymeric acceptors to achieve higher open circuit voltage in all-polymer bulk heterojunction solar cells, Polymer Chemistry 2013, 4, 5612-5620. 影响因子：4.927

27. Large scale preparing carbon nanotube/zinc oxide hybrid and its application for highly reusable photocatalyst, Chemical Engineering Journal 2012, 191, 571-578. 影响因子：6.735 

28. Direct growth of size-controlled gold nanoparticles on reduced graphene oxide film from bulk gold by tuning electric field: effective methodology and substrate for surface enhanced Raman scattering study, J. Mater. Chem. 2012, 22, 11994-12000. 影响因子：9.931

29. Dopamine-Modified Trititanate Nanotubes with UV- and Visible-Light Photocatalytic Activity: Coordinative Self-Assembly into a Recyclable Absorber, ChemCatChem 2012, 4, 1133-1138. 影响因子：4.674

30. Electromechanical actuation with controllable motion based on a single-walled carbon nanotube and natural biopolymer composite, ACS Nano 2010, 4, 3498-3502. 影响因子：15.881

先进能源材料实验室

先进能源材料实验室拥有教授2人，副教授5人，研究生30余人，专注面向绿色清洁能源的先进材料制备，分散以及加工技术研究，围绕锂离子电池，燃料电池以及太阳能转化等先进能源技术开展基础研究和应用开发。