姓名：张蓓

职称：教授

办公地点：新疆大学博达校区物理楼A305

邮箱：zhb@xju.edu.cn

研究方向：低维纳米材料与器件热电转换性质理论研究

个人简介：

物理学专业理学博士、教授、博士生导师。新疆大学“低维凝聚态理论”科研团队骨干成员。《量子力学》课程负责人。承担本科生以及研究生《量子力学》、《大学物理》、《力学》、《凝聚态物理研究方法》以及《凝聚态物理前沿讲座》等课程的教学工作。2019-2021年在中南大学物理与电子学院从事博士后研究工作。主要研究方向为有机-无机低维纳米器件热电转换性质理论研究。主持国家自然科学基金项目3项，自治区自然科学基金面上项目3项，自治区教育厅项目1项，国家重点实验室开放课题1项，并参与多项国家自然科学基金项目的研究工作。在PRB，JMCC，JPCL,ASS等国际权威期刊发表SCI学术论文累计近50余篇。

教育背景：

[1] 1999.09-2003.07新疆大学/物理科学与技术学院材料物理/学士；

[2] 2003.09-2006.07新疆大学/物理科学与技术学院理论物理/硕士；

[3] 2006.09-2013.12西安交通大学/物理学院物理学/博士；

[4] 2019.11-2021.11中南大学/物理与电子学院物理学/博士后。

承担主要科研项目：

[1]有机-无机复合分子器件界面设计及热电性能调控理论研究，12564028，国家自然科学基金地区基金项目，2026.01-2029.12，31万，主持人；

[2]石墨烯/新型各向异性TMDs异质结电输运及光学性质的应力调控研究，12164046，国家自然科学基金地区基金项目，2022.01-2025.12，38万，主持人；

[3]硅碳纳米管对BF3气体分子吸附特性的理论研究(11547131),国家自然科学基金应急管理项目,2016.01-2016.12，5万，主持人；

[4]基于层间杂化工程vdW异质结构热/电输运性质理论调控研究，2025D01C42,自治区科技计划项目-自然科学基金面上项目，2025.09-2028.08，10万，主持人；

[5]MoS₂/磷基二维材料异质结输运性质应力调控研究，2021D01C033，自治区科技计划项目-自然科学基金面上项目，2021.06-2024.05，7万，主持人；

[6]硅碳纳米管对含氟气体分子气敏特性理论研究(2016D01C065),自治区自然科学基金面上项目，2017.01-2019.12,7万，主持人；

[7]二维碳金属材料电子自旋输运性质的应变与外场调控研究，粉末冶金国家重点实验室开放课题，5万，2022.06-2023.05, 5万，主持人；

[8]中性及带电过渡金属（Fe,Co,Ni）团簇的第一性原理研究（050161），自治区教育厅项目，2009.12—2011.12，2万，主持人。

获奖荣誉：

[1]2025年，自治区级大学生创新训练计划结题，获评优秀项目；

[2]2024年，荣获新疆大学本科毕业论文优秀指导教师；

[3]2024年，荣获第二届智能材料与光电子器件研讨会“最佳墙报奖”；

[4]2024年5月，指导本科生毕业论文“四硫富瓦烯分子结基于连接位点热-电输运性能理论调控探究”，获新疆大学2024年度优秀本科生毕业论文;

[5]2023年6月，指导本科生毕业论文“黑磷／黑砷异质结纳米器件热电性质应力调控研究”，获新疆大学2023年度优秀本科生毕业论文;

[6]2020年，指导本科生参加全国大学生物理竞赛（CUPT），获得新疆赛区一等奖；

[7]2017年，荣获得新疆大学2017年度“光华教育奖”；

[8]2016年，获得“全国高等学校物理基础课程青年教师讲课比赛”新疆赛区一等奖；

[9]2016年，获得“全国高等学校物理基础课程青年教师讲课比赛”西北赛区二等奖；

[10]2011年，荣获“昊泰青年教师教学优秀奖”；

[11]2010年，荣获“光华教育奖”二等奖；

主要发表论文：（部分）

[1] Yifeng Qiu, Xinlei Zhang, Yingwei Wang,Bei Zhang*, Thermal/electric transmission properties regulation of armchair-phosphorene nanoscale devices based on defect engineering,Journal of Central South University, accepted, 2026.[二区]

[2] Xinlei Zhang, Cunjia Pan, Bakhtiyor A. Rasulov,Bei Zhang*,Regulation of thermal and electrical transport properties of large-pore borophene nanoribbons based on molecular surface adsorption engineering,Langmuir,accepted, 2026.[二区]

[3]Meng Qian,Bei Zhang*, Thermal/electrical transmission property modulation of low-dimensional carbon nanodevices by alternative splicing based on five-membered carbon ring structure,Phys. Chem. Chem. Phys.,27:8783–8791, 2025.[二区]

[4]Shutao Hu, Meng Qian, Gang Zhang,Bei Zhang*, Interfacial design and thermoelectric properties of C3N4_C20 molecular junctions based on quantum interference,Chin. Phys. B,34：068903, 2025.[二区]

[5]Haoran Li,Bei Zhang*,Yifeng Qiu,Edge state regulation and interfacial design on spin transportproperties of VC₂-based nanoscale devices,Inter. J. Mod. Phys. B,2550091, 2025.[三区]

[6]Aolin Lia, Chang Nie,Bei Zhang, Haiming Duan, Fangping Ouyang,Room-temperature half-metallic antiferromagnetism in monolayer CrFeSe2,Journal of Alloys and Compounds,1036:181827, 2025.[一区]

[7] Qiaoya Dou, Chengwei Song,Bei Zhang*, Thermoelectric property regulation of dimer-triangulene molecular junctions based on oxygen edge-modification engineering,Phys. Chem. Chem. Phys.,27:24370–24380, 2025.[二区]

[8]戎杙，邱乙峰，张蓓*，黑磷/黑砷异质结构纳米器件热电性质应力调控研究，原子与分子物理学报，2025，42：012002.

[9]高一波，邱乙峰，刘丹丹，张晖阜，尹彬洁，彭敬源，张蓓*，四硫富瓦烯分子结基于连接位点热－电输运性能理论调控研究，原子与分子物理学报，2025，42：061006.

[10]刘仪伟，邱乙峰，张蓓*,基于石墨烯电极ＴＣＮＱ 分子结热／电输运性质理论研究,原子与分子物理学报，2025，42：036002.

[11]Jingyuan Peng,Bei Zhang*,et al.,Optimizing thermoelectric performance in molecular junction: The role ofvan der Waals interface coupling with boron-doped electrodes,Results in Physics, 2024,62:107832.[二区，IF:5.3]

[12]Changyou Liu, Ketian Hou,Bei Zhang*,Synthesis, structures and properties of two new nitrate optical materials:Rb₃ZnNO₃Cl₄and Rb₅Na(NO₃)₄Cl₂,Results in Physics,2024,57:107340. [二区，IF:5.3]

[13]Ketian Hou, Changyou Liu, Qiuyuan Feng, Yonglei Yang, andBei Zhang*,Enhanced Birefringence in Phosphates via “Two Steps in One”: d0Transition Metal Regulation and Fluorination Synergistic Strategy,J. Phys. Chem. C,2024, 128, 7352−7358.

[14]Aihemaitijiang Sidike,Bei Zhang,Jiwei Dong, Guanghua Guo*, Haiming Duan,Mengqiu Long,Realization of high thermoelectric performance of black phosphorus / blackarsenic hybrid heterojunction nanoscale devices by interface engineering,Physica B,2024,673:415357.

[15]Bei Zhang*, Shidong Zhang. Half-metallicity and perfect spin-filtering effect based on vacancy interference in boron-phosphide nanoribbon: A first-principle study.Applied Surface Science, 2023,610, 155475. (一区IF:7.392)

[16]Bei Zhang*, Yaoxing Sun, Shidong Zhang, Aolin Li, Jiming Dong, Jing Wang,Haiming Duan, Fangping Ouyang. Spin transport property of Cr₂C based nanoscale devices: A first

principle study,Results in Physics,2023,45,106228. (二区IF:5.3)

[17]Bei Zhang*, Shidong Zhang, Gang Zhang,Effectivethermoelectric switch ofhollow weakly-coupled molecular junction based ontwist angle effect with boron-doping,Nanoscale and Microscale Thermophysical Engineering,2023,27, 168-181. (一区IF:4.1)

[18]Yifeng Qiu,Bei Zhang*, Interface design of the thermoelectric transportproperties of phosphorene–tetrathiafulvalene nanoscale devices,Phys. Chem. Chem. Phys., 2023,25, 27448. (二区IF:3.954)

[19] Guibo Zheng,Bei Zhang, Haiming Duan, Wenzhe Zhou, Fangping Ouyang*, Magnetic proximity controlled Rashba and valley splittings in monolayerJanus ZrNX/VTe₂(X = Br, I) heterostructure,Physica E, 2023,148, 115616.(二区IF:3.369)

[20] Dehe Zhang,Aolin Li,Bei Zhang, Wenzhe Zhou,* Haiming Duan * andFangping Ouyang, Combined piezoelectricity, valley splitting andDzyaloshinskii–Moriya interaction in Janus GdXY(X, Y = Cl, Br, I) magnetic semiconductors,Phys. Chem. Chem. Phys.2023,25, 8600. (二区IF:3.954)

[21]Bei Zhang, Significantly enhanced thermoelectric performance of Van der Waalsinterface coupling molecular junction with nitrogen-doped graphenenanoribbon electrodes，Applied Surface Science, 2022,597, 153722.(一区IF:7.392)

[22]Bei Zhang, Shidong Zhang, Mengqiu Long^*, Magnetothermoelectric properties of Al-Porphyrin sandwiched by graphene nanoribbon electrode based on quantum interference,Physica E, 2022,139, 115189.(二区IF:3.369)

[23]Bei Zhang, Shidong Zhang, Jiwei Dong, Yaoxin Sun, Fangping Ouyang^*and Mengqiu Long^*, Significantly enhanced thermoelectric performance in intermediate weak-coupling C₈-BTBT molecular junctions with p/n-type electrode doping,J. Mater. Chem. C, 2021,9, 12322.（二区IF:7.393）

[24]Bei Zhang, Xiaojiao Zhang, Shidong Zhang, Yunpeng Wang, Jiwei Dong, Yaoxing Sun, Mengqiu Long^∗，Fangping Ouyang，Modulating the thermoelectric performance of C_n-BTBT molecular devices by changing contact geometries with ZGNR electrodes，Results in Physics，2021,26, 104318.(二区IF:4.019)

[25]Bei Zhang, Lei Xu, Chu Chen, Jun Zhang*, Geometrical and electronic structures of CunC±, CunC2 ± (n = 1–5) clusters: A first-principles study,Chinese Journal of Physics, 2017,55, 566–570. (三区IF:2.50)

[26]张蓓*，两嵌段共聚物自组装行为研究，原子与分子物理学报，2021,38,026002.

[27] Jiwei Dong,Bei Zhang^∗, Shidong Zhang, Yaoxing Sun, Mengqiu Long^*, Effects of interface charge-transfer doping on thermoelectric transport properties of black phosphorene-F4TCNQ nanoscale devices,Applied Surface Science, 2022,579, 152155.（一区IF:7.392）

[28] Yaoxing Sun,Bei Zhang^∗, Shidong Zhang, Dan Zhang, Jiwei Dong, Mengqiu Long^*, Strain modulation on the spin transport properties of PTB junctions with MoC2 electrodes,Phys. Chem. Chem. Phys.,2022,24,3875. (二区IF:3.945)

[29] Qingshan Ma, Yi Rong,Bei Zhang^∗, Fangping Ouyang,Haoran Li, Yiwei Liu and Jun Zhang, Thermoelectric performance of porphyrin molecular junctionwith graphene nanoribbon electrodes,International Journal of Modern Physics B,2022, 2250118. DOI: 10.1142/S0217979222501181（三区IF: 1.404）

[30] Aolin Li, Shenglin Peng, Wenzhe Zhou, Jiangling Pan,Bei Zhang^∗, Fangping Ouyang^*, Semiconductor-to-metal transitions in spin-valve-like van der Waals heterostructures based on buckled honeycombs,Journal of Magnetism and Magnetic Materials,2022,544, 168706.(三区IF:3.097)

[31] Huang Dong-Lin,Zhang Bei^∗and Zhang Jun, Morphological transformations of AB diblock copolymerparticles in soft confinement,International Journal of Modern Physics B,

2020,34, 2050118.（三区IF:0.769）

[32]林妙香，代冠慧，张^∗,硅碳纳米管(8, 0)几何结构和电子结构性质密度 泛函理论的第一性原理研究,聚态物理学进展, 2018,7(3): 85-89. DOI: 10.12677/cmp.2018.73011.

[33] Wenzhe Zhou, Jianyong Chen,Bei Zhang, Haiming Duan, Fangping Ouyang^*, Manipulation of the Rashba spin-orbit coupling of a distorted 1T-phase Janus WSSe monolayer:Dominant role of charge transfer and orbital components,，2021,103, 195114.(二区IF:3.908)

[34] Wenzhe Zhou, Liang Wu, Aolin Li,Bei Zhang,Fangping Ouyang^*, Structural Symmetry, Spin−Orbit Coupling, and Valley-Related Properties of Monolayer WSi2N4 Family,J. Phys. Chem. Lett.2021,12, 11622−11628.(一区IF: 6.888)

[35] Yixi Tang, Wenzhe Zhou,Bei Zhang, Haiming Duan, Fangping Ouyang^*, First-principle studies on the metal/semiconductor properties and strain-tuned electronic structures of SnP₃monolayer,Computational Materials Science,2022,203,111407. (三区IF: 3.572)

[36] Kewang Zhang, Junben Huang, Zhikang Chen,Bei Zhang, Ming-Hsien Lee and Jun Zhang^*, Distinctive modulation of optical anisotropy by halogens in α/β-Cd–P–X (X = Cl, Br, and I),Dalton Trans., 2021,50,12006. (二区IF: 4.39)

[37] Zhenzhen Miao, Can Cao,Bei Zhang, Haiming Duan* , Mengqiu Long*，First-principles study on the effects of doping and adsorption on the electronic and magnetic properties of diamond nanothreads,PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES,2020,118, 113949.(二区IF: 3.57)

[38] Zhenzhen Miao, Can Cao,Bei Zhang, Haiming Duan* , Mengqiu Long*，Effects of 3d-transition metal doping on the electronic and magnetic properties of one-dimensional diamond nanothread,Chinese Physics B, 2020,29, 066101.(三区IF:1.652)

[39]徐雷，张蓓，孔维新，陈楚，张军*，Kagome晶格中的拓扑平带和量子霍尔效应，新疆大学学报，2018,35,127-130.

[40]Zhongxu Fan, Chen Bai, Hongsheng Shi, Min Zhang,Bei Zhang, Jun Zhang* and Junjie Li*,RbPb8O4Cl9: the first alkali metal lead oxyhalide with distorted [PbO₃Cl₃] and [PbOCl₅] mixedanion groups,Dalton Trans., 2021,50,14038-14043.(二区)

[41]B. Zhang; D. D. Liu; C. Chen; J. Zhang, Density functional theory study of the structure and electronic properties of Nin, Ni±n(n=1-5) clusters, Journal of Atomic and Molecular Physics, 2014.2,31(1): 79-84.

[42]B. Zhang; B. B. Cao; C. Chen; J. Zhang; H. M. Duan, Density-Functional Theory Study on Neutral and Charged MnC2(M=Fe,Co,Ni,Cu;n=1-5) Clusters, J．Clust Sci, 2013.2,24(1): 197-207.(三区)

[43]B. Zhang; Q. Jing; Z. H. Yang, Electronic Structure and Linear Optical Properties of Mixed Alkali-metal Borophosphates (LIK2BP2O8, LI3K2BP4O14): A First-Princioles Study,Functional Materials Letters, 2013.5,6(4): 1350046. (三区)

[44]B. Zhang; C. Chen; J. Zhang, Density functional theory study of Co+n,Con, Co-n(n=1-5)clusters, Journal of Atomic and Molecular Physics, 2013.8,28(4): 643-648

[45] C. Chen; J. Zhang; H. M. Duan,B. Zhang,Hydrogen Adsorption of Mg-Doped graphene Oxide: A First-Principles Study, J. Phys. Chem. C, 2013.4,117(9): 4337-4344.(二区)

[46]B. Zhang; J. Zhang; C. Chen, First principle study of hydrogenstorage, Applied Mechanics and Materials, 2012.11.23-2012.11.26.

[47]B. Zhang; A. Bao; C. Chen; J. Zhang, Density-functional theory study of ConC±m (n=1-5; m=1,2) clusters, Acta.Phys.Sin, 2012.8,61(15): 153601. (三区)

[48]B. Zhang; J. Zhang; H. M. Duan, Structural Properties of the Global Minimum Rhodium Clusters (n=3-57), XIII International Symposium on Small Particles and Inorganic Clusters, 2006.6.10-2006.6.13

社会服务工作（2020.01-至今）

[1]2023年11月，受邀担任IOPP（英国皇家物理学会）承办特刊客座编辑（100^thanniversary of Xinjiang University新疆大学100周年校庆，其中包含Reports on Progress in Physics,Journal of Physics D: Applied Physicsand2D Materials三个期刊）

[2]2023年10月，受邀担任英国皇家化学学会旗下Top期刊Physical Chemistry Chemical Physics（PCCP）期刊审稿人（IF:3.945，二区）