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谭健峰

发布时间:2024-03-04  点击量:4034  来源:  作者:

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谭健峰(1990.08-),湖北巴东人,博士,博士后,硕士生导师,湖北省“楚天学者”

研究方向:凝聚态物质结构与物理性质调控及其在半导体传感、新能源、生物医学等领域的应用

联系方式:tanjf@hbmzu.edu.cn

学习工作经历

2020.12至今,湖北民族大学,智能科学与工程学院,讲师

2018.06-2020.10,武汉理工大学,材料复合新技术国家重点实验室,博士后

2013.09-2018.06,华中师范大学,凝聚态物理学,理学博士

授课经历

主要讲授《固体物理》、《量子力学》、《数学物理方法》等课程

主要成果简介

以第一/通讯作者在Adv. Funct. Mater、Sens. Actuators, B、Appl. Surf. Sci.等期刊发表SCI论文20余篇,其中一区12篇。主持国家自然科学基金、博士后项目等纵横向项目10余项,参与面上项目1项。

主要科研项目

[1] 国家自然科学基金青年项目,聚酰亚胺纳米纤维/MS2(M=Mo,Sn)基柔性复合气敏材料的结构构筑与性能调控研究,主持

[2] 湖北省科技厅自然科学基金青年项目,掺杂镂空氧化铈/量子点构建柔性可见光激发气体传感器,主持

[3] 湖北省教育厅科学研究计划重点项目,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,主持

[4] 企业横向研究项目,柔性可穿戴压力传感器关键材料与集成工艺研究,主持

[5] 企业横向研究项目,电子价签智能制造生产线及其应用示范,主持

人才计划

湖北省高层次人才计划,2023年

代表性论文

[1] SnS2 nanosheets/Ag2S quantum dots heterojunction supported by YSZ nanofibers enable real-time room-temperature NO2 gas sensor, Applied Surface Science, 2024, 657, 159778

[2] Boosted hydrophobic properties of leather surfaces by atmospheric pressure plasma brush reactor, Vacuum, 2024, 222: 112983

[3] Nature-inspired structure and electronic structure regulation enable polyacrylonitrile nanofiber/cobalt-doping SnS2 nanosheets to integrate flexible room-temperature gas sensor, Sensors and Actuators B: Chemical, 2023, 381: 133429

[4] Bismuth doped SnS2 nanoflower for real-time NO2 monitoring at room-temperature, Materials Letters, 2023, 337: 133973

[5] Advanced aqueous sodium-ion capacitors based on Ni0.25Mn0.75O nanoparticles encapsulated in electrospinning carbon nanofibers., Dalton Transactions, 2022, 51(42): 16236-16242

[6] Weak Ionization Induced Interfacial Deposition and Transformation towards Fast-Charging NaTi2(PO4)3 Nanowire Bundles for Advanced Aqueous Sodium-Ion Capacitors, Advanced Functional Materials, 2021, 31: 2101027

[7] Electrolyte Engineering towards High-Voltage Aqueous Energy Storage Devices, Energy & Environmental Materials, 2020, 0, 1

[8] 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, 2019, 298: 126839

[9] Synergistic Coupling of Ether Electrolyte and 3D Electrode Enables Titanates with Extraordinary Coulombic Efficiency and Rate Performance for Sodium-Ion Capacitors, Small Methods, 2019, 3: 1800371

[10] Co3O4 nanoboxes with abundant porestructure boosted ultrasensitive toluene gas sensors, Materials research express, 2018, 5: 045036

[11] Fe2O3-loaded NiO nanosheets for fast response/recovery and high response gas sensor, Sensors and Actuators B: Chemical, 2018, 256: 282

[12] Self-template derived CuO nanowires assembled microspheres and its gas sensing properties, Sensors and Actuators B: Chemical, 2017, 252: 1

[13] 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, 2017, 249: 44

[14] Nanosheets-assembled hollowed-out hierarchical Co3O4 microrods for fast response/recovery gas sensor, Sensors and Actuators B: Chemical, 2017, 249: 66

[15] Porous ZnFe2O4 nanorods with net-worked nanostructure for highly sensor response and fast response acetone gas sensor, Sensors and Actuators B: Chemical, 2017, 248: 85

[16] Microwave-assisted synthesis of Fe-doped NiO nanofoams assembled by porous nanosheets for fast response and recovery gas sensors, Materials Research Express, 2017, 4: 045015

[17] 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, 2016, 237: 159

[18] 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, 2016, 230: 46