Xiaobin Niu   

Xiaobin Niu
Professional Title:Professor
Supervisor of Doctorate Candidates

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    博士生导师,电子科技大学材料与能源学院副院长,电子科技大学量子研究中心副主任。中国科学技术大学物理学士、硕士,加州大学洛杉矶分校材料科学博士。先后入选中国工程前沿杰出青年学者2019年)。现任《半导体学报》副主编,中国电子学会半导体科技青年专委会委员,还是American Physics Society (APS)Materials Research Society (MRS)American Association for Crystal Growth(AACG)会员,担任了多个国际学术期刊的审稿人,例如Physical Review LettersApplied Physics LettersJournal of Applied physics等。主要从事应用基础研究,涵盖了物理、化学以及光电子器件等方向,工作核心是材料的微尺度结构的生长和性质理论研究及多尺度计算模拟;低维度材料的控制生长、物性表征;低维材料在能源转换、量子信息器件、光电探测领域的应用等。承担有科技部重点研发计划、国防科技创新特区培育项目等多项国家级、省部级、横向以及校级项目,科研经费约2000万,取得了系列创新性研究成果,在Nano Energy Physics Review LettersNano LettersCarbon等国际物理、材料学权威学术期刊上发表论文50余篇,申请专利20余项,获得授权9项,其中美国专利一项。研究成果引起国际同行和专业媒体的广泛关注,多次被Uconn Today 杂志、电子科技大学新闻中心、微信公众号、纳米前沿顶刊日报等媒体报道。



2003 – 2008:美国加州大学洛杉矶分校,博士,材料科学与工程系

2000 – 2003:中国科学技术大学,硕士,物理系,凝聚态物理专业

1996 – 2000:中国科学技术大学,学士,物理系,应用物理专业      



2008 – 2011:美国犹他大学,材料科学与工程系,博士后

2008 – 2011CAO Group, Inc.(曹氏集团),项目首席科学家

2011 – 2014:美国康涅迭戈大学,机械工程系,博士后,助理研究教授

2014 – 2014:美国东北大学,机械工程系,助理研究教授

2014 – 2017:电子科技大学,微固学院,教授




1.    Yang, J., Xiang, F., Guo, H., Wang, L., and Niu, X(通讯作者).: ‘Honeycomb-like porous carbon with N and S dual-doping as metal-free catalyst for oxygen reduction reaction’, Carbon(JCR一区), 2020, 156, pp. 514-522

2.    Lv, X.X., Lei, T.O.Y., Wang, B.J., Chen, W., Jiao, Y., Hu, Y., Yan, Y.C., Huang, J.W., Chu, J.W., Yan, C.Y., Wu, C.Y., Wang, J.W., Niu, X.B(通讯作者)., and Xiong, J.: ‘An Efficient Separator with Low Li-Ion Diffusion Energy Barrier Resolving Feeble Conductivity for Practical Lithium-Sulfur Batteries’, Advanced Energy Materials(JCR一区 IF24.844), 2019, pp. 8

3.    Guo, H., Chen, H., Zhang, H., Huang, X., Yang, J., Wang, B., Li, Y., Wang, L., X.N.(通讯作者), and Wang, Z.: ‘Low-temperature processed yttrium-doped SrSnO3 perovskite electron transport layer for planar heterojunction perovskite solar cells with high efficiency’, Nano Energy(JCR一区 IF15.548), 2019, 59, pp. 1-9

4.     Xie, L.S., Wang, J.W., Liao, K.J., Yang, J.A., Wang, A.L., Deng, X.Y., Li, C.B., Li, T.S., Niu, X.B(通讯作者)., and Hao, F.: ‘Low-cost coenzyme Q10 as an efficient electron transport layer for inverted perovskite solar cells’, J. Mater. Chem. A(JCR一区 IF10.733), 2019, 7, (31), pp. 18626-18633

5.    Li, P.P., Wang, J.W., Chen, H.Y., Sun, X.P., You, J.M., Liu, S.H., Zhang, Y.Y., Liu, M.L., Niu, X.B(通讯作者)., and Luo, Y.L.: ‘Synergistic electrocatalytic N-2 reduction using a PTCA nanorod-rGO hybrid’, J. Mater. Chem. A(JCR一区 IF10.733), 2019, 7, (20), pp. 12446-12450

6.    Zhang, H., Zhao, C., Li, D., Guo, H., Liao, F., Cao, W., Niu, X. (通讯作者), and Zhao, Y.: ‘Effects of substrate temperature on the crystallization process and properties of mixed-ion perovskite layers’, J. Mater. Chem. A(JCR一区 IF10.733), 2019, 7, (6), pp. 2804-2811

7.    Wang, J., Li, Z., Chen, H., Deng, G., and Niu, X. (通讯作者): ‘Recent Advances in 2D Lateral Heterostructures’, Nano-Micro Letters(JCR一区), 2019, 11, (1)

8.    Wang, L., Yang, J., Li, J., Chen, T., Chen, S., Wu, Z., Qiu, J., Wang, B., Gao, P., Niu, X. (通讯作者), and Li, H.: ‘Graphite as a potassium ion battery anode in carbonate-based electrolyte and ether-based electrolyte’, Journal of Power Sources(JCR一区), 2019, 409, pp. 24-30

9.    Wu, Z., Wang, L., Huang, J., Zou, J., Chen, S., Cheng, H., Jiang, C., Gao, P., and Niu, X. (通讯作者): ‘Loofah-derived carbon as an anode material for potassium ion and lithium ion batteries’, Electrochimica Acta(JCR一区), 2019, 306, pp. 446-453

10.  Li, H.D., Yu, S.P., Li, Y., Channa, A.I., Ji, H.N., Wu, J., Niu, X.B(通讯作者)., and Wang, Z.M.: ‘The coherent heteroepitaxy of high-index Bi2Se3 thin film on nanofaceted Si(211) substrate’, Applied Physics Letters, 2019, 115, (4), pp. 5

11.  Chen, H., Zhang, S., Jiang, W., Zhang, C., Guo, H., Liu, Z., Wang, Z., Liu, F., and Niu, X. (通讯作者): ‘Prediction of two-dimensional nodal-line semimetals in a carbon nitride covalent network’, Journal of Materials Chemistry A(JCR一区 IF10.733), 2018, 6, (24), pp. 11252-11259

12.  Yang, J., Guo, H., Chen, S., Li, Y., Cai, C., Gao, P., Wang, L., Zhang, Y., Sun, R., Niu, X. (通讯作者), and Wang, Z.: ‘Anchoring and space-confinement effects to form ultrafine Ru nanoclusters for efficient hydrogen generation’, Journal of Materials Chemistry A(JCR一区 IF10.733), 2018, 6, (28), pp. 13859-13866

13.  Chen, H., Jin, K.-H., Guo, H., Wang, B., Govorov, A.O., Niu, X. (通讯作者), and Wang, Z.: ‘Nanoperforated graphene with alternating gap switching for optical applications’, Carbon(JCR一区), 2018, 126, pp. 480-488

14.  Guo, H., Yang, J., Pu, B., Chen, H., Li, Y., Wang, Z., and Niu, X. (通讯作者): ‘Excellent microwave absorption of lead halide perovskites with high stability’, Journal of Materials Chemistry C(JCR一区), 2018, 6, (15), pp. 4201-4207

15.  Yang, J., Cai, C., Li, Y., Gao, L., Guo, H., Wang, B., Pu, B., and Niu, X. (通讯作者): ‘In-situ cobalt and nitrogen doped mesoporous graphitic carbon electrocatalyst via directly pyrolyzing hyperbranched cobalt phthalocyanine for hydrogen evolution reaction’, Electrochimica Acta(JCR一区), 2018, 262, pp. 48-56

16.  Li, Y., Zhou, Z., Lin, Y., Ji, H., Li, H., Wu, J., Ashalley, E., Usman, M., Bao, J., Niu, X. (通讯作者), and Wang, Z.: ‘Significant Enhancement of Hydrogen Production in MoS2/Cu2ZnSnS4 Nanoparticles’, Particle & Particle Systems Characterization(JCR一区), 2018, 35, (6)

17.  Zhang, S., Xie, Y., Hu, Y., Niu, X. (通讯作者), and Wang, Y.: ‘Remarkable negative differential resistance and perfect spin-filtering effects of the indium triphosphide (InP3) monolayer tuned by electric and optical ways’, Physical Chemistry Chemical Physics, 2018, 20, (46), pp. 29440-29445

18.  Yang, H., Yang, J., Ren, X., Chen, H., Jagadish, C., Guo, G.-C., Jin, C., Niu, X. (通讯作者), and Guo, G.-P.: ‘Three-leaf dart-shaped single-crystal BN formation promoted by surface oxygen’, Applied Physics Letters, 2018, 113, (16)

19.  Pu, B., Wang, L., Guo, H., Yang, J., Chen, H., Zhou, Y., Yang, J., Zhao, B., and Niu, X. (通讯作者): ‘Influence of PEG Stoichiometry on Structure-Tuned Formation of Self-Assembled Submicron Nickel Particles’, Materials, 2018, 11, (2)

20.  Li, Y., Yang, Z., Wu, Z., Li, J., Zou, J., Jiang, C., Yang, J., Wang, L., and Niu, X. (通讯作者): ‘The effects of lithium salt and solvent on lithium metal anode performance’, Solid State Ionics, 2018, 324, pp. 144-149

21.  Guo, H., Huang, X., Pu, B., Yang, J., Chen, H., Zhou, Y., Yang, J., Li, Y., and Niu, X. (通讯作者): ‘Impact of halide stoichiometry on structure-tuned formation of CH3NH3PbX3-aYa hybrid perovskites’, Solar Energy(JCR一区), 2017, 158, pp. 367-379

22.  Guo, H., Huang, X., Pu, B., Yang, J., Chen, H., Zhou, Y., Yang, J., Li, Y., Wang, Z., and Niu, X. (通讯作者): ‘Efficiency enhancement in inverted planar perovskite solar cells by synergetic effect of sulfated graphene oxide (sGO) and PEDOT:PSS as hole transporting layer’, RSC Adv., 2017, 7, (79), pp. 50410-50419

23.  Guo, H., Pu, B., Chen, H., Yang, J., Zhou, Y., Yang, J., Bismark, B., Li, H., and Niu, X. (通讯作者): ‘Surfactant-assisted solvothermal synthesis of pure nickel submicron spheres with microwave-absorbing properties’, Nanoscale Research Letters, 2016, 11

24.  Chen, H., Wang, J., Ashalley, E., Li, H., and Niu, X. (通讯作者): ‘Calculation of Elastic Bond Constants in Atomistic Strain Analysis’, Nanoscale Research Letters, 2015, 10

25.  Niu, X., Li, L., Qiu, J., Yang, J., Huang, J., Wu, Z., Zou, J., Jiang, C., Gao, J., and Wang, L.: ‘Salt-concentrated electrolytes for graphite anode in potassium ion battery’, Solid State Ionics, 2019, 341, pp. 115050

26.  Niu, X., and Wang, Z.M.: ‘A Special Section on Optoelectronic Nanomaterials’, Journal of Nanoelectronics and Optoelectronics, 2015, 10, (1), pp. 86-87

27.  Niu, X., Stagon, S.P., Huang, H., Baldwin, J.K., and Misra, A.: ‘Smallest Metallic Nanorods Using Physical Vapor Deposition’, Physical Review Letters(JCR一区 IF9.227), 2013, 110, (13)

28.  Niu, X., Stringfellow, G.B., Lee, Y.-J., and Liu, F.: ‘Simulation of self-assembled compositional core-shell structures in InxGa1-xN nanowires’, Physical Review B, 2012, 85, (16)

29.  Niu, X., and Huang, H.: ‘Diffusion boundary condition at surface steps’, J Cryst Growth, 2012, 353, (1), pp. 174-176

30.  Niu, X.B., Stringfellow, G.B., and Liu, F.: ‘Nonequilibrium Composition Profiles of Alloy Quantum Dots and their Correlation with the Growth Mode’, Physical Review Letters(JCR一区 IF9.227), 2011, 107, (7)

31.  Niu, X., Stringfellow, G.B., and Liu, F.: ‘Phase separation in strained epitaxial InGaN islands’, Applied Physics Letters, 2011, 99, (21)

32.  Niu, X.B., Uccelli, E., Fontcuberta i Morral, A., and Ratsch, C.: ‘A level set simulation for ordering of quantum dots via cleaved-edge overgrowth’, Applied Physics Letters, 2009, 95, (2)

33.  Niu, X.B., Lee, Y.J., Caflisch, R.E., and Ratsch, C.: ‘Optimal capping layer thickness for stacked quantum dots’, Physical Review Letters(JCR一区 IF9.227), 2008, 101, (8)

34.  Niu, X., Vardavas, R., Caflisch, R.E., and Ratsch, C.: ‘Level set simulation of directed self-assembly during epitaxial growth’, Physical Review B, 2006, 74, (19)

35.  Niu, X.B., Liao, Y., Chang, C., Yu, Q.X., and Fang, R.C.: ‘Silicon carbon nitride films grown by hot-filament chemical vapor deposition’, Journal of Inorganic Materials, 2004, 19, (2), pp. 397-403

36.  Xie, H., Geng, Q., Zhu, X., Luo, Y., Chang, L., Niu, X., Shi, X., Asiri, A.M., Gao, S., Wang, Z., and Sun, X.: ‘PdP2 nanoparticles–reduced graphene oxide for electrocatalytic N2 conversion to NH3 under ambient conditions’, J. Mater. Chem. A(JCR一区 IF10.733), 2019, 7, (43), pp. 24760-24764

37.  Jihua Zou, P.Y., Wenhao Wang, Xin Tong, Le Chang, Cuo Wu, Wen Du, Haining Ji, Youngjun Huang, Xiaobin Niu, Alexander Govorov, Jiang Wu, Zhiming Wang: ‘Broadband mid-infrared perfect absorber using fractal Gosper curve’, Journal of Physics D: Applied Physics, 2019

38.  Shenghui Zhang, X.N., Yiqun Xie, Kui Gong, Hezhu Shao, Yibin Hu, Yin Wang: ‘High intrinsic ZT in InP3 monolayer at room temperature’, Journal of Physics: Condensed Matter, 2019, 31, (36), pp. 366501

39.  Shen, C.Q., Yan, X.Z., Qing, F.Z., Niu, X.B., Stehle, R., Mao, S.S., Zhang, W.L., and Li, X.S.: ‘Criteria for the growth of large-area adlayer-free monolayer graphene films by chemical vapor deposition’, J. Materiomics, 2019, 5, (3), pp. 463-470

40.  Wang, L.P., Wu, Z.R., Zou, J., Gao, P., Niu, X.B., Li, H., and Chen, L.Q.: ‘Li-free Cathode Materials for High Energy Density Lithium Batteries’, Joule, 2019, 3, (9), pp. 2086-2102

41.  Wang, S., Chen, H., Liao, J., Sun, Q., Zhao, F., Luo, J., Lin, X., Niu, X., Wu, M., Li, R., and Sun, X.: ‘Efficient Trapping and Catalytic Conversion of Polysulfides by VS4 Nanosites for Li-S Batteries’, Acs Energy Letters(JCR一区 IF16.331), 2019, 4, (3), pp. 755-762

42.  You, Y., Tong, X., Wang, W., Sun, J., Yu, P., Ji, H., Niu, X., and Wang, Z.M.: ‘Eco-Friendly Colloidal Quantum Dot-Based Luminescent Solar Concentrators’, Adv. Sci(JCR一区 IF15.804)., 2019, 6, (9)

43.  Ali Imrana, X.T., Jing-Yin Xua, Yongchen Liua, Muhammad Naeem Siala, Peng Yua, Haining Jib, Xiaobin Niub, Zhiming M. Wanga*: ‘Tailored Near-infrared Colloidal Heterostructured Quantum Dots for High Performance Photoelectrochemical Cells’, Journal of Materials Chemistry A(JCR一区 IF10.733), 2019

44.  Chen, S.L., Zou, J., Li, Y.H., Li, N., Wu, M., Lin, J.H., Zhang, J.M., Cao, J., Feng, J.C., Niu, X.B., Bai, J.M., Qi, J.L., Gao, P., Wang, L.P., and Li, H.: ‘Atomic-scale structural and chemical evolution of Li3V2(PO4)(3) cathode cycled at high voltage window’, Nano Research, 2019, 12, (7), pp. 1675-1681

45.  Liu, X.X., Wu, R., Wang, Y., Xiao, S.H., He, Q., Niu, X.B., Blackwood, D.J., and Chen, J.S.: ‘Self-supported core/shell Co3O4@Ni3S2 nanowires for high-performance supercapacitors’, Electrochimica Acta, 2019, 311, pp. 221-229

46.  Ying Xu, L.W., Weishang Jia, Yanan Yu, Ruya Zhang, Tao Li, Xianbiao Fu, Xiaobin Niu, Jingze Li, Yijin Kang: ‘Three-dimensional carbon material as stable host for dendrite-free lithium metal anodes’, Electrochimica Acta, 2019, 301, pp. 251-257

47.  Zhong, Z.Q., Li, X.L., Wu, J., Li, C., Xie, R.B., Yuan, X.M., Niu, X.B., Wang, W.H., Luo, X.R., Zhang, G.J., Wang, Z.M.M., Tan, H.H., and Jagadish, C.: ‘Wavelength-tunable InAsP quantum dots in InP nanowires’, Applied Physics Letters, 2019, 115, (5), pp. 5

48.  Yao, Y., Ashalley, E., Niu, X., Dai, L., Yu, P., Chen, W., Qin, Z., Zhang, L., and Wang, Z.: ‘Tetrapyrroles-decorated graphene nanoribbons: Toward to the half-metal and ferromagnetic semiconductor’, Applied Physics Letters, 2019, 114, (7)

49.  Zhu, N., Ji, H., Shen, C., Wu, J., Niu, J., Yang, J., Farooq, M.U., Li, H., and Niu, X.: ‘Study of Alternating Magnetic Heating Characteristics of MnZn Ferrite Nanoparticles for Magnetic Hyperthermia Applications’, Ieee Transactions on Applied Superconductivity, 2019, 29, (2)

50.  Zhu, N., Ji, H., Yu, P., Niu, J., Farooq, M.U., Akram, M.W., Udego, I.O., Li, H., and Niu, X.: ‘Surface Modification of Magnetic Iron Oxide Nanoparticles’, Nanomaterials, 2018, 8, (10)

51.  Li, S., Zhang, Y., and Niu, X.: ‘Defects and impurities induced structural and electronic changes in pyrite CoS2: first principles studies’, Physical Chemistry Chemical Physics, 2018, 20, (17), pp. 11649-11655

52.  Jin, M., Guo, Y., Li, B., Niu, X., and Zhang, Y.: ‘Magnetic and electronic properties of alpha-U2N3 and its role in preventing uranium from oxidation: First-principles studies’, Journal of Nuclear Materials, 2018, 512, pp. 72-78

53.  Ren, W., Li, H., Gao, L., Li, Y., Zhang, Z., Long, C., Ji, H., Niu, X., Lin, Y., and Wang, Z.: ‘Epitaxial growth and thermal-conductivity limit of single-crystalline Bi2Se3/In2Se3 superlattices on mica’, Nano Research, 2017, 10, (1), pp. 247-254

54.  Yu, P., Yao, Y., Wu, J., Niu, X., Rogach, A.L., and Wang, Z.: ‘Effects of Plasmonic Metal Core - Dielectric Shell Nanoparticles on the Broadband Light Absorption Enhancement in Thin Film Solar Cells’, Scientific Reports, 2017, 7

55.  Gao, L., Li, H., Ren, W., Wang, G., Li, H., Zhou, Z., Ji, H., Niu, X., and Wang, Z.: ‘Patterning Bi2Se3 single-crystalline thin films on Si(111) substrates using strong oxidizing acids’, Rsc Advances, 2017, 7, (51), pp. 32294-32299

56.  Gao, L., Li, H., Ren, W., Wang, G., Li, H., Ashalley, E., Zhong, Z., Ji, H., Zhou, Z., Wu, J., and Niu, X.: ‘The high-yield growth of Bi2Se3 nanostructures via facile physical vapor deposition’, Vacuum, 2017, 140, pp. 58-62

57.  Xu, X., Wu, J., Wang, X., Zhang, M., Li, J., Shi, Z., Li, H., Zhou, Z., Ji, H., Niu, X., and Wang, Z.M.: ‘Ion-Beam-Directed Self-Ordering of Ga Nanodroplets on GaAs Surfaces’, Nanoscale Research Letters, 2016, 11

58.  Shafa, M., Ji, H., Gao, L., Yu, P., Ding, Q., Zhou, Z., Li, H., Niu, X., Wu, J., and Wang, Z.M.: ‘Mid-infrared photodetectors based on InSb micro/nanostructures grown on low-cost mica substrates’, Materials Letters, 2016, 169, pp. 77-81

59.  Li, H., Ren, W., Wang, G., Gao, L., Peng, R., Li, H., Zhang, P., Shafa, M., Tong, X., Luo, S., Zhou, Z., Ji, H., Wu, J., Niu, X., and Wang, Z.: ‘Monolithic integration of metastable alpha-In2Se3 thin film on H-passivated Si(111) for photovoltaic applications’, Journal of Physics D-Applied Physics, 2016, 49, (14)

60.  Wu, J., Yu, P., Susha, A.S., Sablon, K.A., Chen, H.Y., Zhou, Z.H., Li, H.D., Ji, H.N., Niu, X.B., Govorov, A.O., Rogach, A.L., and Wang, Z.M.M.: ‘Broadband efficiency enhancement in quantum dot solar cells coupled with multispiked plasmonic nanostars’, Nano Energy(JCR一区 IF15.548), 2015, 13, pp. 827-835

61.  Yin, X., Shi, J., Niu, X., Huang, H., and Wang, X.: ‘Wedding Cake Growth Mechanism in One-Dimensional and Two-Dimensional Nanostructure Evolution’, Nano Lett(JCR一区 IF12.721), 2015, 15, (11), pp. 7766-7772

62.  Reich, J.M., Niu, X.B., Lee, Y.J., Caflisch, R.E., and Ratsch, C.: ‘Lateral alloy segregation in thin heteroepitaxial films’, Physical Review B, 2009, 79, (7)



1. QuantumDot and Nanowire Synthesis授权号:US20140027710A1 授权时间:2014.01.30

2. 一种在硅衬底上生长锑化铟薄膜的方法、授权号:ZL 201611202065.X 、授权时间:2018.12.25

3. 尺寸可控的球形MnZn铁氧体磁性纳米颗粒的制备方法、授权号:ZL 201610704753.X、授权时间:2018.12.04

4. 一种铋层状化合物超晶格的制备方法、授权号:ZL 201610054544.5 、授权时间:2017.12.29

5. 一种制备硫系化合物异质结构的装置及其制备方法、授权号:ZL 201610054541.1 、授权时间:2017.12.29

6. 一种硒化铋材料的化学刻蚀方法、授权号:ZL 201610051414.6 、授权时间:2017.10.27

7. 新型高效可活动射频等离子体放电管、授权号:ZL 201610053880.8、授权时间:2017.07.28

8. 一种响应可见光的光解水制氢催化剂及其制备方法、授权号:ZL 201510138426.8 、授权时间:2017.06.16

9. 一种二硫化钼复合纳米金光催化剂及其制备方法、授权号:ZL 201510136180.0 、授权时间:2017.02.22

10. 一种自滤光硅肖特基单色探测器、申请号:201910437510.8 、申请时间:2019.05.24

11. 一种形成石墨烯纳米带异质结的方法、申请号:201910329452.7 、申请时间:2019.03.29

12. 一种金属纳米棒的可控生长方法、申请号:201910248887.9 、申请时间:2019.03.29

13. 一种在硅(211)衬底上生长硒化铋高指数面单晶薄膜的方法、申请号:201910191834.8 、申请时间:2019.03.14

14. 一种银-锰锌铁氧体复合磁性纳米颗粒的制备方法、申请号:201810256239.3 、申请时间:2018.03.27

15. 一种钌纳米金属电催化剂及制备方法、申请号:201810127062.7 、申请时间:2018.02.08

16. 一种控制金属纳米棒生长的方法、申请号:201810111752.3 、申请时间:2018.02.05

17. 一种红外超材料吸收器及其制备方法、申请号:201710289116.5 、申请时间:2017.04.27

18. 一种基于快速退火金属薄膜自组装纳米粒子的方法、申请号:201610699894.7 、申请时间:2016.10.17

19. 一种二氧化钛复合纳米金光催化剂的制备方法、申请号:201510136153.3 、申请时间:2015.03.26

20. 一种金属锂负极材料及其制备方法和应用、申请号:201910315106.3 、申请时间:2019

21. 一种二硫化铁正极材料及其制备方法以及碱金属离子电池、申请号:201910315104.4  、申请时间:2019



1输运量子态多场调控方法与量子晶体管(2018YFA0306102)、国家重点研计划子课题,科技部、395万元、主持 2018.05-2023.05


基金,面上项、62万元、主持 2020.01.01-2023.12.31







1、中国工程前沿杰出青年学者  中国工程院 2019

2、电子科技大学研究生优秀导学团队 电子科技大学 2018

3、优秀博士导师 电子科技大学2018

4、优秀党务工作者 电子科技大学材料与能源学院 2018



1. Theoretical Design of Carbon-based Functional Materials with Nano-holesThe 2018 International Conference on Multiscale Modeling &Simulation of Materials (ICM3-2018)西安,201871-3

2. 半导体胶体量子点的设计合成及光电器件应用,中国材料大会2018,厦门,2018712-16

3. 2D Functional C/N-based Antidot LatticeInternational Conference on Low-dimensional Quantum MaterialsSnowbird, Utah.2018310-14

4. Growth dynamics with the presence of ES barriers,全球华人物理大会,北京,2017.9.18

5. 纳米多孔石墨烯能带开关调控,中国物理学年会,成都,2017.9.10

6. Growth Dynamics with the Presence of Multilayer Steps   Collaborative Conference on Crystal Growth,柏林,2017.8.8

7. Design and Fabrication of Hybrid Perovskite Solar Cells    EMN meeting on Energy Storage conference committees,米兰,2017.8.16

8. Smallest Metallic Nanorods Using Physical Vapor Deposition  International Conference on Nucleation and Growth MechanismsHefeiDec-152015

9. Tuning the Indium Incorporation in InGaN Growth     The 18th Conference of The Physical Society of Hong Kong,Hong KongJun-152015



10. CH3NH3PbX3 perovskites: Excellent microwave absorptionAPS March Meeting 2018,洛杉矶/201835-8

11. Band-gap switching and scaling of nanoperforated grapheneAPS March meeting,美国新奥尔良,2017.3.15



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