导师介绍
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个人信息
姓名: 陈长城 职称: 副教授
职务: 导师类别: 硕士研究生导师
邮箱: chenchangcheng @xauat.edu.cn 研究方向: 柔性/应力/电场调控器件结构及关键性质,光催化/表面调控器件结构及关键性质,二维金属离子电池,机器学习优化算法设计及材料筛选,高效环保发光材料与器件性质机理,光电器件结构与物性仿真和设计
教育背景
(1) 2006-09~2011-06, 兰州大学, 凝聚态物理, 博士(硕博连读)
(2) 2009-11~2011-04, 美国佐治亚理工学院, 材料科学与技术学院, 访问学者
(3) 1998-09~2002-07, 兰州大学, 电子器件与材料工程, 学士
工作经历
(1) 2017-02~至今, 西安建筑科技大学, 理学院物理系, 副教授
(2) 2013-09~2017-01, 中国航天科技集团, 微电子技术研究所, 高级工程师
(3) 2011-08~2013-08, 中国航天科技集团, 微电子技术研究所, 工程师
(4) 2002-08~2006-06, 中国航天科技集团, 微电子技术研究所, 工程师
学术成果
科研项目:
(1) 陕西省科技厅, 陕西省自然科学基础研究基金面上项目,2024JC-YBMS-021,应用光伏建筑一体化的高透明宽光谱多模增益钙钛矿量子点设计及特性研究, 在研, 主持
(2) 西安市科技局,西安市科技计划高校人才服务企业项目,23GXFW0043,二维异质结钙钛矿智能器件的光电应用研究, 在研, 主持
(3) 中科大数据研究院, 高校人才服务企业项目,2022YFB3204200,高效环保型钙钛矿发光材料构型设计及应用开发,在研, 主持
(4) 北京邮电大学, 高校合作项目,2024046,基于地形库的电磁仿真模拟软件研发,在研, 主持
(5) 陕西省科技厅, 陕西省自然科学基础研究基金面上项目, 2021JM-371, 钙钛矿基二维异质结光电器件性能研究,结题, 主持
(6) 西安市科技局, 科技计划高校人才服务企业项目, GXYD10.2, 多维梯度微管质子导体固体氧化物燃料电池的低温化研究,结题, 主持
(7) 陕西省教育厅, 科学研究计划项目自然科学专项, 18JK0465, 非对称结构微管质子导体固体氧化物燃料电池的制备及研究,结题, 主持
(8) 西安建筑科技大学, 科技基金基础研究基金项目, JC1701, 管式质子导体固体氧化物燃料电池的制备及研究,结题, 主持
(9) 国家自然科学基金委员会, 青年科学基金项目, 11804265, W-LEDs用双钙钛矿型红色荧光材料的基质微环境调控及其发光性能研究,结题, 主要参与人
(10) 其它厅局级及横向项目等 20 余项。
代表性文章和论著:
(1) Flexibility potential of Cs2BX6(B=Hf, Sn, Pt, Zr, Ti; X=I, Br, Cl) with application in photovoltaic devices and radiation detectors, Journal of Energy Chemistry, Accept, SCI 一区, IF: 13.1
(2) Theoretical exploration of CO2 photocatalytic reduction using single atom gold nanoparticles (Au0) modified SrTi0.875Hf0.125O3, Journal of Catalysis, Accept, SCI 一区, IF: 7.3
(3) Efficient thermoelectric properties and high UV absorption of stable zinc-doped all-inorganic perovskite for BIPV applications in multiple scenarios, Solar Energy, 2024, 267, 112240, SCI 二区, IF: 6.7
(4) Two-dimensional PC3 monolayer as promising hosts of Li-ion storage: A first-principles calculations study, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 685(20), 133313, SCI 二区, IF: 4.2
(5) Impact of alkaline-earth doping on the mechanical, electronic, optical and photocatalytic properties of CsPb0.875AE0.125Br3(AE = Be, Mg, Ca, Sr and Ba): insights from DFT perspective, Materials Science & Engineering B, 2024, 299, 116923, SCI 二区, IF: 3.6
(6) Exploring the effect of C6H5-x/FxBr (x = 0–3) passivating agent on surface properties at different termination ends: first principles, Physical Chemistry Chemical Physics, 2023, 25, 29924, SCI 二区, IF: 4.3
(7) Double-perovskite van der Waals Heterostructure Cs2NaInCl6-XS2 (X=Cr, Mo, W) as great potential material in photovoltaic devices, Surfaces and Interface, 37 (2023) 102734, SCI 二区, IF: 6.1
(8) Theoretical investigation of vacancy-ordered double perovskite halides A2Sn1-xTixY6 (A=K, Rb, Cs; Y=Cl, Br, I) as potential all-inorganic and lead-free light absorbers for solar cells, Nanomaterials, 13 (2023) 2744, SCI 二区, IF: 5.3
(9) Twin-graphene: A Promising Anode Material for Li‑ion Batteries with Ultra-high Specific Capacity, Journal of Physical Chemistry C, 2023, 127, 29, 14065, SCI 二区, IF: 3.7
(10) Metallic 1H-BeP2 monolayer as a potential anode material for Li-ion/Na-ion batteries: A first principles study, , Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 662, 131037, SCI 二区, IF: 4.2
(11) Two-Dimensional Metallic SnB Monolayer as an Anode Material for Non-lithium-ion Batteries, Physical Chemistry Chemical Physics, 2022, 24, 23737, SCI 二区, IF: 4.3
(12) Two-dimensional SiP3 monolayer as promising anode with record-high capacity and fast diffusion for alkali-ion battery, Applied Surface Science, 2022 (586) 152510, SCI 一区, IF: 7.4
(13) Novel high-performance anodic materials for lithium ion batteries: Two-dimensional alloying monolayers Sn-X (X=C, Si, Ge) , Physical Chemistry Chemical Physics, 2021 (23) 26428, SCI 二区, IF: 3.4
(14) Impact of Halogen Substitution on the Electronic and Optical Properties of 2D Lead-free Hybrid Perovskites, Journal of Physical Chemistry C, 2021, 125(28): 15742, SCI 二区, IF: 4.3
(15) Enhancement of electrochemical properties, impedance and resistances of micro-tubular IT-SOFCs with novel asymmetric structure based on BaZr0.1Ce0.7Y0.1Yb0.1O3−δproton conducting electrolyte, Fuel Cells, 2020, 20(1): 70, SCI 三区, IF: 2.3
(16) High performance of anode supported BaZr0.1Ce0.7Y0.1Yb0.1O3−δ proton-conducting electrolyte micro-tubular cells with asymmetric structure for IT-SOFCs, Journal of Electroanalytical Chemistry, 2019, 844: 49, SCI 二区, IF: 3.9
(17) Electrochemical properties of micro-tubular intermediate temperature solid oxide fuel cell with novel asymmetric structure based on BaZr0.1Ce0.7Y0.1Yb0.1O3−δ proton conducting electrolyte, International Journal of Hydrogen Energy, 2019, 44(31): 16887, SCI 二区, IF: 5.4
(18) Synthesis and luminescence properties of red-emitting M2Si5N8:Eu2+-based (M=Ca,Sr,Ba) phosphors by a simple nitrate reduction, SCIENCE CHINA Physics, Mechanics & Astronomy, 2014, 57(3): 433, SCI 三区, IF: 2.0
(19) M2Si5N8:Eu2+-based (M = Ca, Sr) Red-emitting Phosphors Fabricated by Nitrate Reduction Process, Optical Materials, 2011, 33(11): 1585, SCI 二区, IF: 1.7
(20) Anode-supported tubular SOFCs based on BaZr0.1Ce0.7Y0.1Yb0.1O3−δ electrolyte fabricated by dip coating, Electrochemistry Communications, 2011, 13(6): 615, SCI 一区, IF: 4.3
(21) Anode-supported micro-tubular SOFCs fabricated by a phase-inversion and dip-coating process, International Journal of Hydrogen Energy, 2011, 36(9): 5604, SCI 一区, IF: 3.9
授权专利:
(1) 一种提高VDMOS器件抗总剂量能力的工艺方法,授权,ZL 201218006595.3,发明专利,2015.2
(2) 一种提高VDMOS器件开关速度和抗总剂量能力的方法,授权,ZL 201218006596.8,发明专利,2015.2
(3) 一种高输出功率密度的燃料电池系统,授权,ZL 201821646111.3,实用新型,2019.4
(4) 一种固体氧化物燃料电池热电联供装置,授权,ZL 202021588166.7,实用新型,2021.2
(5) 以沼气为原料的小型农用微管式固体氧化物燃料电池装置,授权 ,ZL 202021583863.3,实用新型,2021.3
(6) 一种梯度微孔构型阳极支撑体的浆料及制备方法,授权,ZL 201811175674.6,发明专利,2021.12
(7) 一种高输出功率密度的燃料电池系统及制备方法,授权,ZL 201811175880.5,发明专利,2021.12
所获荣誉
(1) 陕西高等学校科学技术研究优秀成果奖,三等奖, 2023
(2) 西安市第十八届自然科学优秀学术论文奖,三等奖,2020
(3) 第六届中国 “互联网+”大学生创新创业大赛(校赛)铜奖,指导教师,2020
(4) 第五届“高等教育杯”全国高等学校物理基础课程青年教师讲课比赛(西北赛区),一等奖,2019
(5) 第五届“高等教育杯”全国高等学校物理基础课程青年教师讲课比赛(陕西赛区),一等奖,2019
(6) 第五届中国 “互联网+”大学生创新创业大赛(校赛)银奖,指导教师,2019
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