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070200|物理学专业硕士研究生指导教师ClickNum:360
姓名 张昌文 性别
民族汉族出生年月1970-10
学历|学位研究生|博士专业技术职务 教授
行政职务
联系电话18953136823移动电话18953136823
邮箱ss_zhangchw@ujn.edu.cn
通讯地址 | 邮编山东省济南市南辛庄西路336号济南大学物理科学与技术学院 | 250022
招生方向(领域) 03(全日制)原子与分子物理,04(全日制)凝聚态物理
研究领域、学习工作经历、学术兼职等情况

济南大学校聘A3岗教授,山东省优秀硕士学位论文指导教师,山东大学合作培养博士生导师,物理科学与技术学院学术和学位委员会委员,《纳米自旋电子材料与器件》科研团队学术带头人。主要从事纳米电子材料与器件的制备和模拟等工作,在磁性半导体材料、拓扑绝缘体材料、以及低维结构材料和器件设计、电子性质预测和量子输运等方面做出重要成果。截至目前发表100余篇SCI论文,其中影响因子3.0以上60余篇,被国际同行引用检索2000余次。获得山东省教育厅科研成果一等奖等国家奖励共9项;2014和2016年山东省优秀硕士研究生论文指导教师。 作为项目负责人主持国家级课题共5项,项目总经费400余万元。目前担任国际著名期刊<Appl. Phys. Lett.>, <Phys. Rev. B>, <Sci. Rep.>, <Nano. Lett.>, <New J. Phys.> 等特约审稿人;教育部学位与研究生教育发展中心通讯评议专家。

 
代表性科研成果及奖励:
(包括项目、鉴定、论文、专著、专利等)

(一)作为项目负责人承担科研项目情况

[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"2015,12019,12,项目负责人(与山东大学合作),360万。
[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异质结中的输运研究”; 2010,1-2012,12,第二负责人,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。
 
(二)代表性科研论文(*为本人所指导研究生的通讯作者) 

(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, 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*, Wei-xiao Ji. Sheng-shi Li, Shi-shen Yan, and P. J. Wang

Scientific Reports, 6:21351(2016).

(3)    Robust Room-Temperature Quantum Spin Hall Effect in Methyl- InBi honeycomb film

Sheng-shi Li, Wei-xiao Ji, Chang-wen Zhang*, Ping Li,Pei-ji Wang, 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)    Controllable band structure and topological phase transition in two-dimensional hydrogenated

Arsenene

Ya-ping Wang, Wei-xiao Ji, Chang-wen Zhang*, Ping Li, F Li, Min Yuan, and Pei-ji Wang

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, 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, 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, and Pei-ji Wang

Materials Chemistry and Physics, 173, 379 (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 materials chemistry C, 4, 2088-2094 (2016).

(11) Robust Room-temperature inversion-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., 2016, 18, 12169 – 12174.

(13) Giant gap quantumspin Hall effect and valley-polarized quantum anomalous Hall effect in cyanided bismuth bilayers

Li, Wei-xiao Ji, Chang-wen Zhang, Ping Li, et al

New Journal of Physics. 18 (2016) 083002

(14) Hydrogenated group-IV binary monolayers: a new family of inversion-asymmetric topological insulators

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

RSC Advances, 2016, 6, 79452 (2016)

(15) First-Principles Prediction of Inversion-Asymmetric Topological Insulator in Hexagonal BiPbH Monolayer

Yi-zhen Jia, Wei-xiao Ji, Chang-wen Zhang,* Ping Li, Miao-juan Ren, and Pei-ji Wang

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

(16) A new topological crystalline insulator in two-dimensional PbPo with tunable large bulk gaps

Ya-ping Wang, Wei-xiao Ji, Chang-wen Zhang*, Ping Li, and Pei-ji Wang

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

(17) Stanene cyanide: a novel candidate of Quantum Spin Hall insulator at high temperature

Wei-xiao Ji, Chang-wen Zhang, Meng Ding, Ping Li, Feng Li, Miao-juan Ren, Pei-ji Wang, Shu-jun Hu,Shi-shen Yan

Scientific Reports, 5, 18604 (2015).

(18)Hydrogenated boron arsenide nanosheet: A promising candidate for bipolar magnetic semiconductor

Run-Wu Zhang, Chang-wen Zhang*, Wei-Xiao Ji, Shu-Jun Hu, and Shi-Shen Yan

Applied Physics Express, 8, 113001 (2015).

(19) Ethynyl-functionalized stanene film: a promising candidate as large-gap quantum spin 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).

(20)First-principles prediction on Graphene/SnO2 heterostructure as a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Hang-xing Luan, Wei-xiao Ji, and Pei-ji Wang

RSC Advances, 5, 35377 – 35383 (2015).

(21)First-principles prediction on silicene-based heterobilayers as a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Wei-xiao Ji, Miao-juan Ren, Feng Li, and Min Yuan

Materials Chemistry and Physics, 156, 89-94 (2015).

(22)Design of silicene/Sc2CF2 heterojunction as a promising candidate for field effect transistor

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

Journal of Applied Physics, 117, 85306 (2015).

(23)Tunable Electronic Properties in van der Waals Heterostructure Germanene/Germanane
Run-wu Zhang, Chang-wen Zhang*, Wei-xiao Ji, Feng Li, Miao-juan Ren, Ping Li, Min Yuan and Pei-ji Wang
Physical Chemistry Chemical Physics, 2015, 17, 12194 - 12198

(24)Unexpected band structure and half-metal in non-metal-doped arsenene sheet

Ya-ping Wang, Chang-wen Zhang, Wei-xiao Ji and Pei-ji Wang

Applied Physics Express, 8, 065202 (2015).

(25)Novel electronic properties in silicene on MoSe2 monolayer: An excellent prediction for FET

Sheng-shi Li, Chang-wen Zhang*, Wei-xiao Ji

Materials Chemistry and Physics, 164, 150-156 (2015).

(26)Tunable half-metallic properties and spin Seebeck effects in zigzag-edged graphene nanoribbons adsorbed with V atom or V-benzene compound

X.F. Yang, H.L. Wang, X.K. Hong, Y.S. Liu, J.F. Feng, X.F. Wang, C.W. Zhang, F. Chi, and M.S. Si

Organic Electronics 24, 80–88 (2015).

(27)Silicane as an inert substrate of silicene: a promising candidate for FET

Run-wu Zhang, Chang-wen Zhang*, Wei-xiao Ji, and Shi-shen Yan

The Journal of Physical Chemistry C, 118(43), 25278-25283 (2014)

(28)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-xiao Ji, Feng Li, Pei-ji Wang, and Shi-shen Yan

Physical Chemistry Chemical Physics, 16 (30), 15968 - 15978 (2014)

(29)Tunable electronic properties induced by defect-substrate in Graphene/BC3 heterobilayer

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

Physical Chemistry Chemical Physics, 16 (41), 22861-22866 (2014)

(30)First-principles prediction on long-range ferromagnetism induced by vacancies in SnO2 nanosheet

Hang-xing Luan, Chang-wen Zhang,* Run-wu Zhang, Wei-xiao Ji, and Pei-ji Wang

Journal of the Physical Society of Japan, 83, 104601 (2014)

(31)Novel bandstructures in silicene on monolayer Zinc Sulfide substrate

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

Journal of Physics: Condense Mater, 26 (39), 395003 (2014)

(32)The Electronic Structure and Optical Properties of Ag-Doped SnO2 Monolayer

Bao-Jun Huang, Feng Li, Chang-Wen Zhang, Ping Li, and Pei-Ji Wang

Journal of the Physical Society of Japan, 83, 064701 (2014)

(33)The electronic structure and optical properties of Mn and B, C, N co-doped MoS2 monolayers

Wei-bin Xu, Bao-jun Huang, Ping Li, Feng Li, Chang-wen Zhang, Pei-ji Wang

Nanoscale Research Letters, 9, 1361 (2014)     

(34) Transport properties of bare and hydrogenated zigzag silicene nanoribbons: Negative differential resistances and perfect spin-filtering effects

X. F. Yang, Y. S. Liu, J. F. Feng, X. F. Wang(王雪峰), C. W. Zhang, and F. Chi

Journal of Applied physics, 116, 124312 (2014)

(35) Novel electronic and magnetic properties in N or B doped silicene nanoribbons

Fu-bao Zheng, Chang-wen Zhang*, Shi-shen Yan, and Feng Li

Journal of Material Chemistry C, 1, 2735 (2013)

(36) First-Principles Study of the Electronic Properties of B/N Atom Doped Silicene Nanoribbons

Hang-xing Luan, Chang-wen Zhang*, Fu-bao Zheng, and Pei-ji Wang

The Journal of Physical Chemistry C, 117(26), 13620–13626 (2013)

(37) 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)

(38) Manipulation of half-metallicity and ferromagnetism in N-doped CdS nanowire

Fu-bao Zheng, Chang-wen Zhang*, Shi-shen Yan, Feng Li

Journal of nanoparticle research (NANO), 15, 1647 (2013)

(39) 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)

(40) First-principles study of graphene adsorbed on WS2

Sheng-shi Li and Chang-wen Zhang*

Journal of Applied physics, 114, 183709 (2013)

(41) Design of half-metallic properties induced by 2p impurities in ZnO nanosheet

Fu-bao Zheng, Chang-wen Zhang*, Shi-shen Yan, Hang-xing luan, Pei-ji Wang

Journal of Solid State Chemistry, 200, 299 (2013)

(42) Novel half-metal and spin gapless semiconductor properties in N-doped silicene nanoribbons

Fu-bao Zheng, Chang-wen Zhang*, Pei-ji Wang, Sheng-shi Li

Journal of Applied Physics, 113, 154302 (2013)

(43) The electronic and magnetic properties with intrinsic defect in ZnO nanosheet: First-principles prediction

Fu-bao Zheng, Chang-wen Zhang*, Pei-ji Wang, Hang-xing Luan

Current Applied Physics, 13,799 (2013).

(44) First-principles study of hydrogenated CdS nanowires

Ping Li, Chang-wen Zhang, Fu-bao Zheng, Jie Lian, and Min Yuan

Physics Review B, 250, 1278-1282 (2013)

(45) Electronic structures and optical properties for Ag-N-codoped ZnO nanotubes

Xian-Yang Feng, Chang-Wen Zhang, Xi-Jin Xu, Pei-Ji Wang

Nanoscale Research Letters, 8, 365 (2013)

(46) 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)

(47) Half-Metallic Properties Induced by Fluorine in Aluminum Nitride Nanosheet

Chang-wen Zhang* and Shi-shen Yan

Journal of the Physical Society of Japan, 81, 044705 (2012)

(48) The electronic and magnetic properties of functionalized silicene: a first-principles study

Fu-bao zheng and Chang-wen Zhang*

Nanoscale Research Letters, 7, 422 (2012)

(49) First-Principles Study on Electronic Structures and Magnetic Properties of AlN nanosheets and Nanoribbons

Chang-wen Zhang*, Pei-ji Wang, Ping Li, and Fu-bao Zheng

Journal of Applied Physics,111, 043702 (2012)

(50) Tuning the electronic and magnetic properties of carbon-doped ZnO nanosheets: First-principles prediction

Fu-bao Zheng, Chang-wen Zhang*, Pei-ji Wang, and Hang-xing Luan

Journal of AppliedPhysics,111, 044329 (2012)

(51) First-principles study on ferromagnetism in two-dimensional ZnO nanosheet

Chang-wen Zhang*, Fu-bao Zheng, Pei-ji Wang, Feng Li, and Shi-shen Yan

Chemical Physics Letters, 548, 60-63 (2012) 【第548期封面文章】

(52) First-principles prediction of the electronic and magnetic properties of nitrogen-doped ZnO    nanosheets

Fu-bao Zheng, Chang-wen Zhang*, Pei-ji Wang, Hang-xingLuan

Solid State Communications 152, 1199 (2012)

(53) First-principles study of electronic structure and magnetic properties of Cu-doped CeO2

Feng Li, Chang-wen Zhang, and Ming-wen Zhao

Journal of Applied Physics112, 083702 (2012)

(54) 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)

(55) Design of ferromagnetism in Cu-doped ZnO nanowires: First-principles prediction

Chang-wen Zhang*, ChongHan, Shi-shen Yan,and Fu-bao Zheng.

EPL 95, 47011 (2011)

(56)First-principles study on surface magnetism in Co-doped (110) SnO2 thin film

Chang-wen Zhang*, Pei-ji Wang, and Feng Li

Solid State Sciences, 13, 1608 (2011)

(57) First-principles study on the electronic and magnetism of hydrogenated CdS nanosheets

Chang-wen Zhang*, Pei-ji Wang, Ping Li, and Fu-bao Zheng

Journal of Applied Physics, 109, 094304 (2011)

(58) Tuning electronic and magnetic properties of AlN nanosheets with hydrogen and fluorine: First-principles prediction

Chang-wen Zhang*, Pei-ji Wang, and Fu-bao Zheng

Physics Letters A375, 3583-3587 (2011)

(59) Influence of Oxygen Vacancy on Electronic and Magnetism in Cr Doped SnO2 Superlattice

Lei Jiang, Yao Lu, Chang-wen Zhang*, Pei-ji Wang, and Guo-lian Zhang

Journal of the Physical Society of Japan 80, 124709 (2011)

(60) Density-functional theory study on ferromagnetism in N:ZnS

Chang-wenZhang*, Shi-shen Yan, Pei-ji Wang, and Zhong Zhang.

Chemical Physics Letters, 496, 46-49 (2010)

(61) First-principles prediction of half-metallic ferromagnetism in Cu doped ZnS

Chang-wen Zhang* and Shi-shen Yan

Journal of AppliedPhysics, 107, 043913 (2010)

(62) First-principles study on ferromagnetism in Mg-doped SnO2

Chang-wen Zhang* and Shi-shen Yan

Applied Physics Letters, 95, 232108 (2010)

 

 (三)学术奖励情况

[1] 2016. 8:山东省优秀硕士研究生论文指导教师(研究生:李胜世)。

[2] 2014年10月:山东省高等学校优秀科研成果一等奖“纳米结构SnO2材料的电子结构及其输运性质” (负责人)。

[3] 2014年6月:山东省优秀研究生论文指导教师(研究生:郑福宝)。

[4] 2014年12月:济南大学杰出贡献奖。

[5] 2012年10月:山东省高等学校优秀科研成果二等奖“新型纳米结构材料设计及其电子性质调控”(负责人)。

 

 

 
教学及研究生培养情况

(一)主讲课程

[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。
 
(二) 研究生培养情况
 到目前为止,已经培养硕士研究生 9 名,其中4名硕士研究生保送到985高校知名课题组(合作研究组);另外目前指导博士研究生2名。所指导研究生获得科研成果奖如下:
[1] 2016.8;研究生李胜世获山东省优秀硕士学位论文;题目为‘硅基纳米材料设计及其量子性质调控’。
[2] 2014.6;研究生郑福宝获山东省优秀硕士学位论文;题目为‘类石墨烯纳米材料的电子结构及磁性’。
[3] 2014.5;研究生栾航行获济南大学优秀硕士学位论文;题目为‘纳米结构SnO2及相关材料的电子结构及磁性’。
[4] 2013.5;研究生郑福宝获济南大学优秀硕士学位论文;题目为‘类石墨烯纳米材料的电子结构及磁性’。
 
 
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