谭健峰（1990.08-），湖北巴东人，讲师，理学博士，材料学博士后，硕士生导师。

研究方向：柔性电子器件、智能传感器与能源存储器件。

电子邮箱：tanjf@hbmzu.edu.cn

教育经历

2009/09-2013/06，武汉工程大学，材料物理，工学学士

2013/09-2018/06，华中师范大学，凝聚态物理（硕博连读），理学博士

2018/09-2020/09，武汉理工大学，材料科学与工程学院，材料科学与工程博士后流动站，博士后研究员

授课经历

主要讲授《理论力学》、《先进制造技术》、《工程材料热处理》等课程。

主要科研项目

[1] 湖北省科技厅青年项目，湖北省科技厅，掺杂镂空氧化铈/量子点构建柔性可见光激发气体传感器，No：2021CFB213，8万元，2021.10-2023.09，在研，主持。

[2] 湖北省教育厅重点项目，湖北省教育厅，电纺磷酸钛钠-碳纳米纤维与聚合物电解质协同构筑水系钠离子电池/电容器，No：D20211903，4万元，2021.01-2022.12，在研，主持。

[3] 超轻弹性体材料绿色制造国家民委重点实验室开放基金项目，湖北民族大学，电导性调控磷酸钛钠纳米纤维构建钠离子电池/电容器，No：PT092105，2万元，2021.07-2023.06，在研，主持。

[4] 湖北民族大学博士启动经费，湖北民族大学，一体化柔性压力传感器关键技术研究，10万元，2021.01-2023.12，在研，主持。

代表性论文

[1] J. Tan, W. Zhu, Q. Gui, Y. Li, J. Liu, Weak Ionization Induced Interfacial Deposition and Transformation towards Fast-Charging NaTi2(PO4)3 Nanowire Bundles for Advanced Aqueous Sodium Ion Capacitors, Advanced Functional Materials 31 (2021) 2101027. (第一作者)

[2] J. Tan, J. Liu, Electrolyte Engineering towards High-Voltage Aqueous Energy Storage Devices, Energy & Environmental Materials 0 (2020) 1. (第一作者)

[3] M. Dun, J. Tan, W. Tan, M. Tang, X. Huang, CdS quantum dots supported by ultrathin porous nanosheets assembled into hollowed-out Co3O4 microspheres: A room-temperature H2S gas sensor with ultra-fast response and recovery, Sensors and Actuators B: Chemical 298 (2019) 126839. (共同第一作者)

[4] J. Tan, M. Dun, L. Li, X. Huang, Co3O4 nanoboxes with abundant porestructure boosted ultrasensitive toluene gas sensors, Materials research express 5 (2018) 045036. (第一作者)

[5] W. Tan, J. Tan, L. Fan, Z. Yu, J. Qian, X. Huang, Fe2O3-loaded NiO nanosheets for fast response/recovery and high response gas sensor, Sensors and Actuators B: Chemical 256 (2018) 282. (共同第一作者)

[6] J. Tan, M. Dun, L. Li, J. Zhao, X. Li, Y. Hu, G. Huang, W. Tan, X. Huang, Self-template derived CuO nanowires assembled microspheres and its gas sensing properties, Sensors and Actuators B: Chemical 252 (2017) 1. (第一作者)

[7] J. Tan, M. Dun, L. Li, J. Zhao, W. Tan, Z. Lin, X. Huang, Synthesis of hollow and hollowed-out Co3O4 microspheres assembled by porous ultrathin nanosheets for ethanol gas sensors: Responding and recovering in one second, Sensors and Actuators B: Chemical 249 (2017) 44. (第一作者)

[8] J. Tan, X. Huang, Ultra-thin nanosheets-assembled hollowed-out hierarchical α-Fe2O3 nanorods: synthesis via an interface reaction route and its superior gas sensing properties, Sensors and Actuators B: Chemical 237 (2016) 159. (第一作者)

[9] J. Tan, J. Chen, K. Liu, X. Huang, Synthesis of porous α-Fe2O3 microrods via in-situ decomposition of FeC2O4 precursor for ultra-fast responding and recovering ethanol gas sensor, Sensors and Actuators B: Chemical 230 (2016) 46. (第一作者)

[10] Q. Gui, D. Ba, Z. Zhao, Y. Mao, W. Zhu, T. Lei, J. Tan, B. Deng, L. Xiao, Y. Li, J. Liu, Synergistic Coupling of Ether Electrolyte and 3D Electrode Enables Titanates with Extraordinary Coulombic Efficiency and Rate Performance for Sodium-Ion Capacitors, Small Methods 3 (2019) 1800371.

[11] W. Tan, J. Tan, L. Li, M. Dun, X. Huang, Nanosheets-assembled hollowed-out hierarchical Co3O4 microrods for fast response/recovery gas sensor, Sensors and Actuators B: Chemical 249 (2017) 66.

[12] L. Li, J. Tan, M. Dun, X. Huang, Porous ZnFe2O4 nanorods with net-worked nanostructure for highly sensor response and fast response acetone gas sensor, Sensors and Actuators B: Chemical 248 (2017) 85.

[13] X. Li, J.-F. Tan, Y.-E. Hu, X.-T. Huang, Microwave-assisted synthesis of Fe-doped NiO nanofoams assembled by porous nanosheets for fast response and recovery gas sensors, Materials Research Express 4 (2017) 045015.