1、无机非金属能源材料（包括功能陶瓷材料和纳米碳材料）的合成与表征
2、电化学,包括功率型储能器件（功率型超级电池和超级电容器）和锂的电化学提取技术
3、固态离子学，固态离子导电体的研究

2003.09 ----2007.06 中南大学，中国，工学学士， 金属材料工程
2007.09 ----2009.12 中南大学，中国，工学硕士， 材料物理与化学
2010. 01----2013.01 挪威科技大学，挪威，博士，材料科学与工程专业
2013.02 ----2015.02 挪威科技大学，挪威，博士后，化学工程

2012年-2016年 挪威研究理事会(NRC) The Research Council of Norway项目

课题：Gas to carbon nanomaterials for energy storage（Leader: De Chen）

项目描述：碳纳米材料在能源存储中的应用

工作职责：博士后，合成多种碳基纳米材料，制造锂电池全电池和超容器件。

2017年 获批江苏省自然科学基金 青年项目

课题：铝/碳双离子电池铝负极表面预制锂生长SEI膜机理的研究

工作职责：项目负责人

2017年 获批国家自然科学基金 青年项目

课题：聚苯胺基碳源近表面化学成分对超容碳大微孔孔道结构的优化机理及其离子液体电吸附动力学和循环改善机制的研究

工作职责：项目负责人

2017年 获批江苏省双创博士

课题：功率型储能器件的研究和产业化

工作职责：项目负责人

1.Zhou, H.; Wang, X.; Sheridan, E.; Gao, H.; Du, J.; Yang, J.; Chen, D., Boosting the Energy Density of 3D Dual-Manganese Oxides-Based Li-Ion Supercabattery by Controlled Mass Ratio and Charge Injection. J. Electrochem. Soc. (2016), 163 (13), A2618-A2622.(IF, 3.0)

2.Zhou, H., Wang, X., Chen, D. Li-metal-free prelithiation of Si-based anodes for full Li-ion batteries, (2015) ChemSusChem, 8(16),pp. 2737–2744 (IF, 7.1)

3.Zhou, H., Wang, X., Sheridan, E., Chen, D. Boosting properties of 3D binder-free manganese oxide anodes by preformation of a solid electrolyte interphase. (2015) ChemSusChem, 8(8), pp. 1368-1380 (IF, 7.1)

4.Zhou, H., Lou, F., Vullum, P.E., Einarsrud, M.-A., Chen, D., Vullum-Bruer, F. 3D aligned-carbon-nanotubes@Li2FeSiO4 arrays as high rate capability cathodes for Li-ion batteries, (2013) Nanotechnology, 24 (43), art. no. 435703. (IF, 3.8)

5.Zhou, H., Einarsrud, M.-A., Vullum-Bruer, F. In situ X-ray diffraction and electrochemical impedance spectroscopy of a nanoporous Li2FeSiO4/C cathode during the initial charge/discharge cycle of a Li-ion battery, (2013) Journal of Power Sources, 238, pp. 478-484. . (IF, 6.2)

6.Zhou, H., Einarsrud, M.-A., Vullum-Bruer, F. High capacity nanostructured Li2FeSiO4/C with Fe hyperstoichiometry for Li-ion batteries (2013) Journal of Power Sources, 235, pp. 234-242. (IF, 6.2)

7.Zhou, H., Einarsrud, M.-A., Vullum-Bruer, F. PVA-assisted combustion synthesis and characterization of porous nanocomposite Li2FeSiO4/C. (2012) Solid State Ionics, 225, pp. 585-589. (IF, 2.6)

8.周海涛，张鸿，李志成. 纳米复合La9.33Si6O26/ Ce0.85Bi0.15O1.925氧离子导电体的制备及其导电性能 (2009) 中南大学学报（自然科学版）, 40 (5), pp. 1265-1269.

9.Wang, X., Zhou, H., Sheridan, E., Walmsley, J.C., Ren, D., Chen, D. Geometrically-confined favourable ion packing for high gravimetric capacitance in carbon-ionic liquid supercapacitor, Energy & Environmental Science (2016),9, 232-239 (IF, 25.2)

10.Gao, B.; Zhou, H.; Chen, D.; Yang, J., Porous carbon with small mesoporesas an ultra-high capacity adsorption medium. Applied Surface Science (2017), 420, 535-541.(IF, 3.6)

11.Gao, B.; Zhou, H.; Yang, J., One-step preparation of nitrogen-doped graphene nanosheets for high-performance supercapacitors. Applied Surface Science (2017), 409, 350-357.(IF, 3.6)

12.Gao, B.; Zhou, H.; Yang, J., Hierarchically porous carbons derived from polyaniline by "nanotube seeding" for high-performance ionic liquid-based supercapacitors. J. Mater. Chem. A (2017), 5 (2), 524-528. (IF, 8.3)

13.Wang, X.; Zhou, H.; Lou, F.; Li, Y.; Buan, M. E. M.; Duan, X.; Walmsley, J. C.; Sheridan, E.; Chen, D., Boosted Supercapacitive Energy with High Rate Capability of aCarbon Framework with Hierarchical Pore Structure in an Ionic Liquid. ChemSusChem (2016), 9 (21), 3093-3101.(IF=7.1）

14.Lou, F., Zhou, H., Tran, T. D., Buan, M. E. M., Vullum-Bruer, F., Rønning, M., Walmsley, J.C. and Chen, D. Coaxial carbon/metal oxides/aligned carbon nanotube arrays as high performance anodes for lithium ion batteries, ChemSusChem (2014), 7 (5), pp. 1335-1346. (IF, 7.1)

15.Lu, H., Zhou, H., Svensson, A.M., Fossdal, A., Sheridan, E., Lu, S., Vullum-Bruer, F. High capacity Li[Ni0.8Co0.1Mn0.1]O2 synthesized by sol-gel and co-precipitation methods as cathode materials for lithium-ion batteries, Solid State Ionics (2013), 249-250, pp. 105-111. (IF, 2.6)

16.Lou, F., Zhou, H., Huang, F., Vullum-Bruer, F., Tran, T.D., Chen, D. Facile synthesis of manganese oxide/aligned carbon nanotubes over aluminium foil as 3D binder free cathodes for lithium ion batteries, Journal of Materials Chemistry A (2013), 1 (11), pp. 3757-3767. (IF, 8.3)

17.Lou, F., Zhou, H., Vullum-Bruer, F., Tran, T.D., Chen, D. Synthesis of carbon nanofibers@MnO2 3D structures over copper foil as binder free anodes for lithium ion batteries. Journal of Energy Chemistry (2013) , 22 (1), pp. 78-86. (IF, 2.4)

18.Zhang, H., Zhou, H., Bergman, B., Li, Z.C. Fabrication and conductivities of CeO2-based oxygen-ion conductors doped by M2O3 (M=La, Nd, Sm and/or Ga). Key Engineering Materials (2008) , 368-372 PART 1, pp. 244-246.

19.张鸿，周海涛，李璐君，李志成. PTCR铁电陶瓷热疲劳过程中的反常现象. (2007) 材料导报, 21 (8) pp. 133-136

20.张鸿，李璐君，周海涛，王申存，李志成. 氧化铋掺杂氧化铈纳米材料的合成及其导电性 (2008) 材料科学与工程学报, 26 (1) pp. 42-45

专利：

1. 周海涛，袁晓晨，于延芬，一种富介孔碳材料及其制备方法。中国，CN201510787918.X，2015-11-18.

2. 周海涛，袁晓晨，于延芬，一种宽温度区间可滥用电容器及其制造方法。中国，CN201510787920.7, 2015-11-18

3. 周海涛，薛海洋，高宏权，于延芬，文茂荣，一种超级电容手摇式充电宝。中国，CN201610450827.1，2016.06.22

4. 周海涛，薛海洋，高宏权，于延芬，文茂荣，一种超级电容手摇式充电宝。中国，CN201620615223.3，2016.06.22

5. 薛海洋，高宏权，周海涛，于延芬，文茂荣，一种超级电容器引流端子，中国，201620840188.5，2016.08.05

6. 周海涛，高宏权，袁晓晨，杨建红，为锂离子储能器件负极预制锂的方法及电解池装置、锂离子储能器件。中国，201710155541.5，2017.03.16