胥亚楠讲师

2010年6月，毕业于聊城大学化学专业获理学学士

2013年6月，毕业于南开大学无机化学专业获理学硕士

2016年6月，毕业于南开大学材料物理与化学专业获工学博士

从事专业及研究方向：

化学教育、科学教育

科研成果：

（一）承担主要课题：

《开展化学HPS教育，提升学生科学素养的研究》天津师范大学校级课题，2018年

（二）近年发表的主要论文:

[1]Y.N. Xu,L.Li,et al.Facilefabrication of porous Co₃O₄ nanowires for highperformance supercapacitors. New Journal of Chemistry, 2018，42，20069-20073.

[2]Y.N. Xu,Y.J.Wang,et al.Novel application of LiCoO₂ as a high-performance candidate materialfor supercapacitor. Journal of EnergyChemistry 2016，24，193-198.

[3]Y.N. Xu,Y.J.Wang,et al.Novel application for simply recovered LiCoO₂ material: as ahigh-performance candidate for supercapacitor in aqueous system. ACS Sustainable Chemistry & Engineering2015，3: 2435-2442.

[4]Y.N. Xu,Y.J.Wang,et al.Electrochemical performances of cobalt oxide-carbon nanotubes electrodes viadifferent methods as negative material for alkaline rechargeable batteries. RSC Advances 2015，5: 73410-73415.

[5]Y.N. Xu,Y.J.Wang,et al.Facile synthesis route of porous MnCo₂O₄ and CoMn₂O₄nanowires and their excellent electrochemical properties in supercapacitors. Journal of Materials Chemistry A 2014，2: 16480-16488.

[6]Y.N. Xu,Y.J.Wang,et al.Synthesis of cobalt oxide-reduced graphene nanocomposite and its enhancedelectrochemical properties as negative material for alkaline secondary battery. Journal of Power Sources 2014，272:328-334.

[7]Y.N. Xu,Y.J.Wang,et al.Effect of the length and surface area on electrochemical performance of cobaltoxide nanowires for alkaline secondary battery application. Journal of Power Sources 2014，272:703-710.

[8]Y.N. Xu,Y.J.Wang,et al. Asimple solvent method for the recovery of LixCoO2 and its applications inalkaline rechargeable batteries. Journalof Power Sources 2014，252: 286-291.

主讲课程：

《教育科研方法》、《中学化学知识教学专题》

常用邮箱:

xuyanan2016@126.com