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程亮

发布日期:2019-09-23  来源:   浏览次数:

基本信息

,男,1987 年 8 月生,讲师,博士研究生。2019 年 6 月毕业于厦门大学-物理与科学技术学院-凝聚态物理专业,获得理学博士学位,随后进入宁夏大学-物理与电子电气工程学院任教。主要从事气体、湿度等传感材料与器件的相关研究工作,先后在 Nano Energy, Nanoscale, Sensors and Actuators B: Chemical 等学术期刊发表 SCI 检索论文 20 余篇。Google Scholar 总引用 1000 余次,H-index为19。

教学情况

从事物理学本科教学工作,主讲《原子物理》等课程。

行政和社会兼职工作

Sensors and Actuators B: Chemical、IEEE Sensors Journal等杂志审稿人。

科研情况:

研究方向:

(1)基于半导体环境领域的电子器件,如气体传感器件:半导体氧化物SnO2, ZnO, TiO2等气体传感器材料设计与制备、器件结构优化与性能分析。

(2)通过高能能量束辐照诱导低维纳米结构在纳尺寸和纳时间尺度上的不稳定性和不同低维纳米结构之间的交互作用及焊接等方面的研究;

主持科研项目

(1)宁夏回族自治区重点项目(引才),2021.01-2023.12,主持,在研。

(2)宁夏高等学校自然科学项目(青年),2020.07-2022.12,主持,在研。

科研成果:

代表性论文及专利:

2021

[1] Hollow hierarchical TiO2-SnO2-TiO2 composite nanofibers with increased active-sites and charge transfer for enhanced acetone sensing performance, Sensors and Actuators B: Chemical                     2021, 334, 129664. (SCI 1 )

[2] Introducing Spin Polarization into Atomically Thin 2D Carbon Nitride Sheets for Greatly Extended Visible-Light Photocatalytic Water Splitting, Nano Energy 2021, 83, 105783. (SCI 1 )

2018

[1] Coalescence between Au nanoparticles as-induced by nanocurvature effect and electron beam athermal activation effect,  Nanoscale  2018,  10, 7978-7983. (SCI 1 )

[2] Athermal coalescence of two parallel and contacting amorphous SiOx nanowires as induced by uniform e-beam irradiation, Materials Letters 2019, 237, 286–289. (SCI 3 )

[3] 朱贤方,苏江滨,程亮,一种平行纳米线的非热融合及其系列结构成形加工方法,中国发明专利,专利申请日: 2018.06,申请号:201810576536.6 (已公开

2017

[1] Metal passivation effect on focused beam-induced nonuniform structure changes of amorphous SiOx nanowire, Journal of Alloys and Compounds 2018, 735, 2336-2340.(SCI 2 )

2015

[1] Synthesis and enhanced acetone sensing properties of 3D porous flower-like SnO2 nanostructures, Materials Letters 2015, 143, 84–87.  (SCI 3 )

[2] Preparation of Yb-doped SnO2 hollow nanofibers with an enhanced ethanol-gas sensing performance by electrospinning, Sensors and Actuators B: Chemical 2015, 216,2 12-220.                          (SCI 1 )

[3] Facile fabrication and enhanced acetic acid sensing properties of honeycomb-like porous ZnO, Materials Letters  2015, 138, 100–103. (SCI 3 )

[4] Influence of Ce doping on microstructure of ZnO nanoparticles and their acetone sensing properties, Journal of Alloys and Compounds 2015, 649, 1136-1144.(SCI 2 )

[5] Performance of 3D SnO2 microstructure with porous nanosheets for acetic acid sensing, Materials Letters    2015, 142, 141–144. (SCI 3 )

[6] Synthesis of hierarchical SnO2 nanoflowers and their high gas-sensing properties, Materials Letters  143 (2015) 283–286. (SCI 3 )

[7] Synthesis of SnO2–ZnO heterostructured nanofibers for enhanced ethanol gas-sensing performance, Sensors and Actuators B: Chemical 221 (2015) 88-95. (SCI 1 )

[8] Preparation, characterization and gas sensing properties of pure and Ce doped ZnO hollow nanofibers, Materials Letters 138 (2015) 188–191. (SCI 3 )

[9] Synthesis of hierarchical SnO2 nanoflowers with enhanced acetic acid gas sensing properties, Applied Surface Science 353 (2015) 71-78.    (SCI 2 )

[10] Synthesis of hierarchical ZnO nanostructure assembled by nanorods and their performance for gas sensing, Materials Letters 142 (2015) 299–303. (SCI 3 )

[11] One-step synthesis and highly gas-sensing properties of hierarchical Cu-doped SnO2 nanoflowers, Sensors and Actuators B: Chemical 213 (2015) 171–180. (SCI 1 )

2014

[1] Highly sensitive acetone sensorsbased on Y-doped SnO2 prismatichollow nanofiberssynthesized by electrospinning, Sensors and Actuators B: Chemical 2014,200,181–190. (SCI 1 )

[2] Synthesis and characterization of SnO2 hollow nanofibers by electrospinning for ethanol sensing properties, Materials Letters 2014, 131, 23–26. (SCI 3 )

[3] Highly sensitive acetic acid gas sensor based on coral-like and Y-doped SnO2 nanoparticles prepared byelectrospinning, Materials Letters 2014, 137, 265–268. (SCI 3 )

[4] Ethanol sensing enhancement by optimizing ZnO nanostructure: From 1D nanorods to 3D nanoflower, Materials Letters 2014, 137, 17–20. (SCI 3 )

[5] Synthesis of hollow SnO2 nanobelts and their application in acetone sensor, Materials Letters  132 (2014) 338–341. (SCI 3 )

[6] The mesoscopic structure of flower-like ZnO nanorods for acetone detection, Materials Letters   121 (2014) 137–140. (SCI 3 )

[7] Preparation of Pr-doped SnO2 hollow nanofibers by electrospinning method and their gas sensing properties, Journal of Alloys and Compounds 605 (2014) 80–88. (SCI 2 )

[8] Synthesis of porous spherical ZnO nanoparticles and measurement of their gas-sensing property, Materials Letters 134 (2014) 80–83. (SCI 3 )

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