熊春艳,博士,副教授,硕士生导师,湖北省“有关人才计划”学子
地址:中国.湖北.武汉.东湖新技术开发区光谷一路206号,武汉工程大学化工与制药学院
邮编:430073
Email:xcy317067886@163.com;
电话:+86-27-87194980
教育背景
2011.09-2016.09 华中科技大学博士
2014.12-2015.12 美国马里兰大学帕克分校,联合培养博士
2006.09-2010.06 武汉工程大学,学士
工作履历
2017.01 至今 武汉工程大学化工与制药学院,副教授
研究领域
新能源电池:固体氧化物电池、偶联反应固体氧化物电解池;锂离子电池正极材料合成与改性。
新能源化工:纳米金属的合成与SERS应用;锂离子电池正极材料回收工艺。
学术成果
科研项目:
国家自然科学基金,青年科学基金项目,主持
湖北省教育厅人才项目,主持
模具与成型国家重点实验室开放基金,青年项目,主持
绿色化工教育部重点实验室创新基金,主持
校企合作项目,主持
代表性论文:
[1] Xiong C, Li W,Xiao J, Duan N, Pu J, Chi B, et al. Improved chromium-poisoning on lanthanumstrontium manganite cathode in presence of a newly developed iron-chromiumbased interconnect alloy for solid oxide fuel cells. International Journalof Hydrogen Energy. 2015;40:13957-63.
[2] Xiong C, Li W,Duan N, Pu J, Chi B, Jian L. The effect of molybdenum on chromium deposition at(La0.8Sr0.2)0.95MnO3-δ cathode ofsolid oxide fuel cells. International Journal of Hydrogen Energy.2016;41:9529-37.
[3] Xiong C, TaillonJA, Pellegrinelli C, Huang Y-L, Salamanca-Riba LG, Chi B, et al. Long-Term CrPoisoning Effect on LSCF-GDC Composite Cathodes Sintered at DifferentTemperatures. Journal of The Electrochemical Society. 2016;163:F1091-F9.
[4] Xiong C, Li W,Ding D, et al. Chromium poisoning effect on strontium-doped samarium manganitefor solid oxide fuel cell. International Journal of Hydrogen Energy,2016, 41(45): 20660-20669. [5] Li W, Xiong C, Zhang Q, Jia L, Chi B, PuJ, et al. Composition optimization of samarium strontium manganite-yttriastabilized zirconia cathode for high performance intermediate temperature solidoxide fuel cells. Electrochimica Acta. 2016;190:531-7.
[6] Li W, Xiong CY,Jia LC, Pu J, Chi B, Chen X, et al. Strontium-doped samarium manganite ascathode materials for oxygen reduction reaction in solid oxide fuel cells. Journalof Power Sources. 2015;284:272-8
[7] Cao Y, Xiong C,Jian L, Vøllestad E, Evans A, Haugsrud R. Enhancement of the ElectronConductivity of La27(W0.85Nb0.15)5O55.5−δby Mo Doping for Hydrogen Permeation. Journal of The Electrochemical Society.2016;163:F1151-F6.
[8] Xiao J, Zhang W, XiongC, Chi B, Pu J, Jian L. Oxidation of MnCu0.5 Co1.5O4spinel coated SUS430 alloy interconnect in anode and cathode atmospheres forintermediate temperature solid oxide fuel cell. International Journal ofHydrogen Energy. 2015; 40:1868-76.
[9] Xiao J, Zhang W, XiongC, Chi B, Pu J, Jian L. Oxidation behavior of Cu-doped MnCo2O4spinel coating on ferritic stainless steels for solid oxide fuel cellinterconnects. International Journal of Hydrogen Energy. 2016; 41:9611-8.
[10] Huang, Y. L., Hussain,A. M., Pellegrinelli, C., Xiong, C., & Wachsman, E. D. (2017).Chromium Poisoning Effects on Surface Exchange Kinetics of La0.6Sr0.4Co0.2Fe0.8O3-δ.Applied materials&interface. 2017;19
[11] X. Liang, C. Chang, W.Guo, X. Jiang, C. Xiong, X. Pu, Red Phosphorus/Onion-like MesoporousCarbon Composite as High-Performance Anode for Sodium-Ion Battery,ChemElectroChem 2019, 6,5721.
[12] Qiu, P., Sun, S., Yang,X., Chen, F., Xiong, C., Jia, L., & Li, J. A review on anode on-cellcatalyst reforming layer for direct methane solid oxide fuel cells. InternationalJournal of Hydrogen Energy. 2019
[13] Xiong C, Liu F, Gao J,Jiang X. One-Spot Facile Synthesis of Single-Crystal LiNi0.5Co0.2Mn0.3O2 CathodeMaterials for Li-ion Batteries. ACS Omega. 2020 Nov19;5(47):30356-30362.
[14] Tan, Y., Gao, S., Xiong,C., & Chi, B.. Nano-structured LSM-YSZ refined with PdO/ZrO2oxygen electrode for intermediate temperature reversible solid oxidecells. International Journal of Hydrogen Energy, 2020,45(38),19823-19830.
[15] Xiong, C., Liu, F.,Gao, J., & Jiang, X.. A N-doped porous carbon derived from deep eutecticsolvent for adsorption of organic contaminants from aqueous or oilsolution. RSC Advances, 2020, 10(57), 34953-34958.
[16] Cao, Y., Wang, C.,Wang, X., Zhang, H., Jiang, X., Xiong, C., & Liang, F. Two-dimensionalmesoporous B, N co-doped carbon nanosheets decorated with TiN nanostructuresfor enhanced performance lithium–sulfur batteries. Applied Physics2021
[17] Li J, Wang X, Huang L,Xiong, C., et al. Ultrathin mesoporous graphitic carbon nitridenanosheets with functional cyano group decoration and nitrogen-vacancy defectsfor an efficient selective CO2 photoreduction. Nanoscale,2021, 13(29): 12634-12641.
专利:
[1] 一种制备薄壁管状陶瓷胚体的方法发明专利CN 104589488 B 2016.10.05
[2] 一种制备管状陶瓷胚体的方法发明专利CN 104493968 B 2016.07.27
[3] 氧化钆掺杂氧化铈纳米符合材料的制备方法和应用ZL 2020 10165516.7