段国韬 - 华中科技大学 - 光学与电子信息学院

个人简介

1998.9-2002.7合肥工业大学，学士 2002.9-2007.7中国科学院大学，博士 2007.9-2018.9中国科学院合肥物质科学研究院，助理研究员、副研究员、研究员 2018.9-今，华中科技大学，教授

研究领域

半导体微纳材料及其气敏机制；微纳气体传感器及其应用；微纳阵列及其光电特性。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]Ultrafine Pt NPs-Decorated SnO2/α-Fe2O3 Hollow Nanospheres with Highly Enhanced Sensing Performances for Styrene,Journal of Hazardous Materials2018, 358: 355-365. [2]Preferentially epitaxial growth of β-FeOOH nanoflakes on SnO2 hollow spheres allows the synthesis of SnO2/α-Fe2O3 hetero-nanocomposites with enhanced gas sensing performance for dimethyl disulfide，Sensors and Actuators B-Chemical2018, 272: 348-360. [3]Co3O4nanosheet-built hollow spheres containing ultrafineneck-connected grains templated by PS@Co-LDH and their ppb-level gas-sensing performance,Sensors and Actuators B-Chemical2018, 261: 553-565. [4]A substrate-independent fabrication of hollow sphere arrays via template-assisted hydrothermal approach and their application in gas sensing,Sensors and Actuators B-Chemical2017, 251: 74-85. [5]Structure and thickness-dependent gas sensing responses to NO2under UV irradiation for the multilayered ZnO micro/nanostructured porous thin films.Journal of Colloid and Interface Science2017, 503: 150-158. [6]Response and stability improvement by fusing optimized micro-hotplatform and double layer bowl-like nano arrays.Sensors and Actuators B-Chemical2016, 231: 450-457. [7]Room temperature H2S gas sensing properties of In2O3micro/nanostructured porous thin film and hydrolyzation-induced enhanced sensing mechanism.Sensors and Actuators B-Chemical2016, 228: 74-84. [8]Detection of dimethyl methylphosphonate by thin water film confined surface-enhanced Raman scattering method.Journal of Hazardous Materials2016, 303: 94-100. [9]Janus gas: reversible redox transition of Sarin enables its selective detection by an ethanol modified nanoporous SnO2chemiresistor.Chemical Communications2015, 51 (38): 8193-8196. [10] In situ synthesis of porous array films on a filament induced micro-gap electrode pair and their use as resistance-type gas sensors with enhanced performances.Nanoscale2015, 7 (34): 14264-14271. [11] Fabrication of gold and silver hierarchically micro/nanostructured arrays by localized electrocrystallization for application as SERS substrates.Journal of Materials Chemistry C2015, 3 (22): 5709-5714. [12] In situ growth of porous ZnO nanosheet-built network film as high-performance gas sensor.Sensors and Actuators B-Chemical2015, 221: 350-356. [13] Wet Etching-Assisted Colloidal Lithography: A General Strategy toward Nanodisk and Nanohole Arrays on Arbitrary Substrates.ACS Applied Materials & Interfaces2014, 6 (12): 9207-9213. [14] Fabrication of Gold Nanoparticles by Laser Ablation in Liquid and Their Application for Simultaneous Electrochemical Detection of Cd2+, Pb2+, Cu2+, Hg2+.ACS Applied Materials & Interfaces2014, 6 (1): 65-71. [15] CuO-ZnO Micro/Nanoporous Array-Film-Based Chemosensors: New Sensing Properties to H2S.Chemistry-A European Journal2014, 20 (20): 6040-6046. [16] An Invisible Template Method toward Gold Regular Arrays of Nanoflowers by Electrodeposition.Langmuir2013, 29 (11): 3512-3517. [17] Fast-Response, Sensitivitive and Low-Powered Chemosensors by Fusing Nanostructured Porous Thin Film and IDEs-Microheater Chip.Scientific Reports2013, 3: 1669. [18] Gold quasi rod-shaped nanoparticle-built hierarchically micro/nanostructured pore array via clean electrodeposition on a colloidal monolayer and its structurally enhanced SERS performance.Journal of Materials Chemistry2011, 21 (24): 8816-8821. [19] General Synthesis of 2D Ordered Hollow Sphere Arrays Based on Nonshadow Deposition Dominated Colloidal Lithography.Langmuir2010, 26 (9): 6295-6302. [20] Yuanyuan Luo, Fengqiang Sun. A hierarchically structured Ni(OH)(2) monolayer hollow-sphere array and its tunable optical properties over a large region.Advanced Functional Materials2007, 17 (4): 644-650