纳米自旋电子材料与器件团队
—— since 2011

张昌文教授简介

》个人简历

张昌文:博士,济南大学校聘A3岗教授,硕士生、博士生导师,山东省优秀硕士研究生论文指导教师,山东大学联合培养博士研究生导师,纳米自旋电子材料与器件科研团队学科带头人。目前主要从事自旋电子学及纳米材料与器件的性能研究及设计工作,在电子磁性调控,材料光电机理研究,以及拓扑绝缘体材料设计等方面取得重要成果,截至目前发表100余篇SCI论文,被引用检索近1000次;主持国家自然科学基金4项,省部级等项目4项。担任国际著名期刊<<Appl. Phys. Lett.>>, <<J. Phys. Chem. C>>,<<Nano. Res. Lett. >>等审稿人。


》研究领域

    [1] 凝聚态理论。

    [2] 自旋电子学及纳米材料与器件性能模拟和功能设计。

    [3] 新型拓扑绝缘体材料结构研究与设计。


》教学工作

    [1] 本科生课程:热力学与统计物理;量子力学。

    [2] 研究生课程:凝聚态物理;计算物理;磁电子学;铁磁学。


》近期文章发表情况

[1]Large-gap Quantum Spin Hall State in Functionalized Dumbbell Stanene

Ya-ping Wang, Chang-wen Zhang*, Wei-Xiao Ji, Ping Li, Pei-ji Wang, Sheng-shi Li, Shi-Shen Yan

Applied Physical Letters, 108,073104 (2016)

[2]Functionalized Thallium Antimony Films as Excellent Candidates for Large-Gap Quantum Spin Hall Insulator

Run-wu Zhang, Chang-wen Zhang*, Shu-jun Hu, and Shi-shen Yan

Scientific Reports, 6:21351(2016).

[3]Robust Room-Temperature Quantum Spin Hall Effect in Methyl-functionalized InBi Honeycomb Film

Sheng-shi Li, Wei-xiao Ji, Chang-wen Zhang*, Shu-jun Hu, Ping Li, Pei-jiWang, Bao-min Zhang, and Chong-long Cao

Scientific Reports, 6:23242 (2016).

[4]Unexpected Giant-Gap Quantum Spin Hall Insulator in Chemically Decorated Plumbene Monolayer

Hui Zhao, Chang-wen Zhang*, Wei-xiao Ji, Run-wu Zhang, Sheng-shi Li, Shi-shen Yan, Bao-min Zhang, Ping Li,and Pei-ji Wang

Scientific Reports, 6:20152 (2016).

[5]Tunable Quantum Spin Hall Effect via Strain in two-Dimensional Arsenene Monolayer

Ya-ping Wang,Chang-wen Zhang*, Wei-xiao Ji, Run-wu Zhang, Ping Li, Pei-ji Wang, Miao-juan Ren, Xin-lian Chen, and Min Yuan

Scientific Reports, 6:20342 (2016).

[6]Room Temperature Quantum Spin Hall Insulator in Ethynyl- Derivative Functionalized Stanene Films

Run-wu Zhang, Chang-wen Zhang*,Wei-xiao Ji, Shen-shi Li, Shi-shen Yan,Shu-jun Hu, Ping Li,and Pei-ji Wang

Scientific Reports, 6:18879 (2016).

[7]Tunable Quantum Spin Hall Effect via Strain in two-dimensional Arsenene Monolayer

Ya-ping Wang, Chang-wen Zhang*, Wei-xiao Ji, Run-wu Zhang, Ping Li, Pei-ji Wang, Miao-juan Ren, Xin-lian Chen, and Min Yuan

J.Phys.D:Appl.Phys., 49,055305 (2016).

[8]Tunable Electronic Structures and Magnetic Properties in Two-dimensional Stanene with Hydrogenation

Sheng-shi Li and Chang-wen Zhang*

Materials Chemistry and Physics, 173,246-254 (2016).

[9]Organic Molecule Adsorption Induced Band Gap Opening in Germanene

Ya-ping Wang, Chang-wen Zhang*,Feng Li, Ping Li, Miao-juan Ren, Xin-lian Chen, Min Yuan, and Pei-ji Wang

Materials Chemistry and Physics, 173,379-384 (2016).

[10]New Family of Room Temperature Quantum Spin Hall Insulators in Two-Dimensional Germanene films

Run-wu Zhang, Wei-xiao Ji, Chang-wen Zhang*, Sheng-shi Li, Ping Li, and Pei-ji Wang

Journal of materialschemistry C, 4,2088-2094 (2016).

[11]Robust Room-temperatureinversion-asymmetry Topological Transitions in Functionalized HgSe Monolayer

Sheng-shi Li, Wei-xiao Ji, Chang-wen Zhang*, Ping Li, and Pei-ji Wang

Journal of materials chemistry C, 4,2243-2251 (2016).

[12]Controllable Electronic and Magnetic Properties in Two-dimensional Germanene Heterostructure

Run-wu Zhang, Wei-xiao Ji, Chang-wen Zhang*, Sheng-shi Li, Ping Li, and Pei-ji Wang

Phys.Chem.Chem.Phys., 18,12169–12174 (2016).

[13] Hydrogenated boron arsenide nanosheet: A promising candidatefor bipolar magnetic semiconductor

Run-Wu Zhang, Chang-Wen Zhang*, Wei-Xiao Ji, Sheng-Shi Li, Pei-Ji Wang, Shu-Jun Hu,  and Shi-Shen Yan, Applied Physics Express, 8, 113001 (2015).

[14] Ethynyl-functionalized stanene film: a promising candidate as large-gap quantumspin Hall insulator

Run-Wu Zhang, Chang-Wen Zhang*,Wei-Xiao Ji, Sheng-Shi Li, Shu-Jun Hu,  Shi-Shen Yan, Ping Li, Pei-JiWang, and Feng Li, New Journal of Physics 17, 083036(2015).

[15] First-principles prediction on Graphene/SnO2heterostructure as a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Hang-xing Luan, Wei-xiaoJi, and Pei-ji Wang, RSC Advances,5, 35377 – 35383 (2015).

[16] First-principles prediction on silicene-based heterobilayers as a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Wei-xiaoJi, Miao-juanRen, Feng Li, and Min Yuan, Materials Chemistryand Physics, 156, 89-94(2015).

[17] Design of silicene/Sc2CF2heterojunction as a promising candidate for field effect transistor

Hui Zhao, Chang-wen Zhang*, Sheng-shi Li, Wei-xiaoJi, and Pei-ji Wang , Journal of Applied Physics, 117, 85306 (2015).

[18] Tunable Electronic Properties in van der Waals HeterostructureGermanene/Germanane

Run-wu Zhang, Chang-wen Zhang*, Wei-xiaoJi, Feng Li, Miao-juanRen, Ping Li,Min Yuan and Pei-ji Wang , Physical Chemistry Chemical Physics, 17, 12194 - 12198 (2015).

[19] Unexpected band structure and half-metal in non-metal-doped arsenene sheet

Ya-ping Wang, Chang-wen Zhang*, Wei-xiaoJi and Pei-ji Wang, Applied Physics Express,8, 065202 (2015).

[20] Silicane as an inert substrate of silicene: a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Wei-xiaoJi, and Shi-shen Yan, The Journal of Physical Chemistry C, 118(43), 25278-25283 (2014)

[21] Tunable electronic and magnetic properties in germanene by alkali, alkaline-earth, group III and 3d transition metal atom adsorption

Sheng-shi Li, Chang-wen Zhang*, Wei-xiaoJi, Feng Li, Pei-ji Wang, andShi-shen Yan, Physical Chemistry Chemical Physics, 16 (30), 15968 - 15978 (2014)

[22] Tunableelectronic properties induced by defect-substrate in Graphene/BC3heterobilayer

Sheng-shi Li, Chang-wen Zhang*, Wei-xiaoJi, Feng Li, and Pei-ji Wang, Physical Chemistry Chemical Physics, 16 (41), 22861-22866 (2014)

[23] First-principles prediction on long-range ferromagnetism induced by vacancies in SnO2 nanosheet

Hang-xing Luan, Chang-wen Zhang*, Run-wu Zhang, Wei-xiaoJi,and Pei-ji Wang, Journal of the Physical Society of Japan,83, 104601 (2014)

[24] Novelbandstructures in silicene on monolayer Zinc Sulfide substrate

Sheng-shi Li, Chang-wen Zhang*, Shi-shen Yan, Shu-jun Hu, Wei-xiaoJi, and Pei-ji Wang, Journal of Physics: Condense Mater, 26 (39), 395003 (2014)

[25] Novel electronic and magnetic properties in N or B doped silicenenanoribbons

Fu-baoZheng, Chang-wen Zhang*, Shi-shen Yan, and Feng Li, Journal of Material Chemistry C, 1, 2735 (2013)

[26] First-Principles Study of the Electronic Properties of B/N Atom Doped SiliceneNanoribbons

Hang-xing Luan, Chang-wen Zhang*, Fu-baoZheng, and Pei-ji Wang, The Journal of Physical Chemistry C,117(26), 13620–13626 (2013)

[27] Novel electronic and magnetic properties in AlN nanoribbons: First-principles prediction

Hang-xing Luan, Chang-wen Zhang*, and Shi-shen Yan, EPL, 103, 37009 (2013)

[28] Manipulation of half-metallicity and ferromagnetism in N-doped CdS nanowire

Fu-baoZheng, Chang-wen Zhang*, Shi-shen Yan, Feng Li, Journal of nanoparticle research (NANO), 15, 1647 (2013)

[29] First-principles study of hydrogen storage on Li-decorated silicene

Feng Li, Chang-wen Zhang*, Hang-xing Luan, Pei-ji Wang, Journal of nanoparticle research (NANO), 15, 1972 (2013)

[30] First-principles study of graphene adsorbed on WS2

Sheng-shi Li and Chang-wen Zhang*, Journal of Applied physics, 114, 183709 (2013)

[31] First-principles Study of Ferromagnetism in Two-Dimensional Silicene with Hydrogenation

Chang-wen Zhang* and Shi-shen Yan, The Journal of Physical Chemistry C, 116, 4163-4166 (2012)

[32] First-principles prediction on the magnetic properties of hydrogenated AlN nanosheets

Chang-wen Zhang* and Fu-bao Zheng. , Journal of Computational Chemistry, 32, 3122-3129 (2011)

 


》承担科研项目

[1] 国家自然科学基金重点项目11434006)“电场调控氧化物磁性异质结的记忆电阻、磁电阻和交换偏置“;2015.1-2019.12,主要负责人,60万。

[2] 国家自然科学基金面上项目(11274143)“平面构型Si基纳米材料的自旋极化及电子输运性质研究“ ;2013.1-2016.12,项目负责人,86万。

[3] 国家自然科学基金面上项目(61076088)“缺陷对SnO2低维纳米材料的磁性影响机理研究”;2011.1-2013.12,项目负责人,32万。

[4] 国家自然科学基金面上项目10974120)“自旋极化电子在磁性半导体及其异质结中的输运研究”;第二负责人,2010,1-2012,12,42万。

[5] 山东省高等学校科技计划项目(J10LA16)“缺陷对SnO2低维纳米材料的磁性影响机理研究”; 2011,1-2013,12,项目负责人,4.5 万。

[6] 山东省优秀中青年科学家奖励基金(BS2009CL012)“SnO2基稀磁半导体的铁磁性及居里温度调控机理研究”;2009,12-2012,12,项目负责人,7.0万。

[7] 国家自然科学基金专项基金(10847134)“SnO2基稀磁半导体的磁性起源及其机理研究”; 2009.1-2009.12,项目负责人,2.0万。

[8] 济南大学博士基金(B0632)“新型Sm-Co基合金的微观结构理论研究和实验探索” ; 2006.9-2009.12,项目负责人,4.0万。

[9] 国家863计划项目(2002AA324050)“新型稀土合金磁性材料的合成、结构和物性”;2003.1-2006.12,主要完成人,50万。

      [10] 济南大学校级科研团队建设 “纳米自旋电子材料与器件”;2014.9-2007.12,项目负责人。


》参加学术报告情况


    [1] 201411月:泰山学术论坛;济南;本人做邀请

    “Novel electronic and magneticproperties of 2D silicene nanostructures”

    [2] 20137月:第十九届全国半导体物理学术会议;威海(山东大学承办);本人做学术报告

    “Novel electronic and magneticproperties of 2D silicene nanostructures”

    [3] 20125月;第五届国际计算物理学术会议;烟台(烟台大学承办);本人做邀请学术报告

    “Novel electronic and magneticproperties of low-dimensional III-V group structures”

    [4] 20119月:中国物理学会2011年秋季学术会议;杭州(浙江大学承办);本人做磁性方向分组报告

    “First-principlesstudy on the electronic and magnetic properties of AlNnanosheet”

    [5] 20118月;第三届国际计算物理学术会议;泰安;本人做学术报告

    “First-principles studyon electronic and magnetic in low-dimensionalsilicenenanoribbons”


》联系方式

  电话:0531-82767268

    邮箱:zhchwsd@163.com


》办公室地址

  济南大学第7教学楼 C508、C406