导师团队
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马雷
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Contact Information

  • 所属院系:纳米中心
  • 所属专业:
  • 邮箱 : lei.ma@tju.edu.cn
  • 工作电话 : -

团队简介

Team Introduction

天津大学(Tianjin University),其前身为北洋大学,始建于1895年10月2日,是中国第一所现代大学,开中国近代高等教育之先河。建校以来,学校秉承“兴学强国”的使命、“实事求是”的校训、“严谨治学”的校风、“爱国奉献”的传统和“矢志创新”的追求,为国家经济社会发展做出了卓越贡献,迄今为国家和社会培养30余万高层次人才。1951年,北洋大学与河北工学院合并,由国家定名为天津大学。1959年被中共中央指定为国家首批重点大学。改革开放后,天津大学是“211工程”、“985工程”首批重点建设的大学,入选国家“世界一流大学建设”A类高校。

天津纳米颗粒与纳米系统国际研究中心(简称:纳米中心),于2018年7月22日在天津大学卫津路校区第20号教学楼西配楼正式挂牌成立,同时举办了第一届天津国际外延石墨烯论坛。中心依托天津大学深厚的学术底蕴和多学科综合的优势,致力于打造石墨烯电子学与团簇物理学领域世界一流的国际化研究平台,为祖国培养锐意进取、敢为人先、具有科研创新精神的研究型人才,瞄准世界科学前沿,服务国家重大技术需求,力争取得世界一流的研究成果。


  • 研究方向Research Directions
团簇物理与化学,石墨烯电子学及器件物理,能源材料与化学
2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。
项目情况

        马雷教授于2016年回国后,成立天津大学纳米中心,主持建设经费4000万元。现为天津大学北洋讲席教授、(天津大学)天津纳米颗粒与纳米系统国际研究中心执行主任、天津市低维电子材料及先进表征仪器研发重点实验室主任。马雷教授长期从事石墨烯电子学及其它低维相关物理学、化学、材料科学与应用、团簇物理研究。作为通讯和第一作者在包括Nature,Nature Communication, Physical Review Letters, Science Bulletin, Applied Catalysis B等杂志发表论文一百余篇。作为课题负责人共获得并承担国家重点研发、国家自然科学基金、天津市重点基金、企业技术开发等各类竞争性项目,总经费超9500万元。


报考意向
招生信息
纳米中心
硕士研究生
  • 序号
  • 专业
  • 招生人数
  • 年份
1
(070205)凝聚态物理
3
2025
2
(080400)仪器科学与技术
3
2025
3
(080502)材料学
3
2025
4
(070300)化学
3
2025
5
(080902)电路与系统
3
2025
报考意向
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团队负责人介绍

        马雷教授于2016年回国后,成立天津大学纳米中心,主持建设经费4000万元。现为天津大学北洋讲席教授、(天津大学)天津纳米颗粒与纳米系统国际研究中心执行主任、天津市低维电子材料及先进表征仪器研发重点实验室主任。马雷教授长期从事石墨烯电子学及其它低维相关物理学、化学、材料科学与应用、团簇物理研究。作为通讯和第一作者在包括Nature,Nature Communication, Physical Review Letters, Science Bulletin, Applied Catalysis B等杂志发表论文一百余篇。作为课题负责人共获得并承担国家重点研发、国家自然科学基金、天津市重点基金、企业技术开发等各类竞争性项目,总经费超9500万元。


研究成果

1.      Jian Zhao, Peixuan Ji, Yaqi Li, Rui Li, Kaimin Zhang, HaoTian, Kaicheng Yu, Boyue Bian, Luzhen Hao, Xue Xiao, Will Griffin,Noel Dudeck,Ramiro Moro, Lei Ma & Walt A. deHeer, Ultrahigh-mobility semiconducting epitaxial graphene on silicon carbide,Nature, 2024, 625: 60. TOP一区, 64.8.

2.      Xue Yu, Chengwei Hu, Peixuan Ji, Yanmei Ren, HongyuanZhao, Gen Liu, Rui Xu, Xiaodong Zhu, Zhiqing Li, Yanqing Ma, Lei Ma, Optically transparent ultrathinNiCo alloy oxide film: Precise oxygen vacancy modulation and control forenhanced electrocatalysis of water oxidation, Applied Catalysis B:Environmental, 2022, 310: 121301. SCI一区, 22.1.

3.      He Wang, Yingping He, Yiyuan Liu, Zhujun Yuan, ShuangJia, Lei Ma, Xiong-Jun Liu, JianWang. Ferromagnetic tip induced unconventional superconductivity in Weylsemimetal. Science Bulletin, 2020, 65(1):21-26, SCI一区, 18.9.

4.      Vladimir S. Prudkovskiy, Yiran Hu, Kaimin Zhang, Yue Hu,Peixuan Ji, Grant Nunn, Jian Zhao, Chengqian Shi, Antonio Tejeda, David Wander,Alessandro De Cecco, Clemens B. Winkelmann, Yuxuan Jiang, Tianhao Zhao,Katsunori Wakabayashi, Zhigang Jiang, LeiMa, Claire Berger, and Walt A. de Heer, An epitaxial graphene platform forzero-energy edge state nanoelectronics, Nature Communications (2022) 13:7814. SCI一区, 16.6.

5.      Danni Hao, Jinwei Liu, Pinggen Zou,Yi Zhang, Ramiro Moro, and Lei Ma,All-dielectric Metasurfaces and Their Applications in the Terahertz Range,Laser Photonics Rev., 2024, 2301210. SCI一区, 11.0.

6.      Rongke Sun, Xiao Zhang, Zejian Chen,Yanqing Ma, Lei Ma, Application oflong fibrous coconut silk-based porous carbon in flexible supercapacitor, J. EnergyStorage, 2023, 66: 107410. SCI一区, 9.4.

7.      Jiashuai Wang, Xiao Zhang, Zhe Li,Yanqing Ma, Lei Ma. Recent progressof biomass-derived carbon materials for supercapacitors. Journal of PowerSources, 2020, 451: 227794, SCI一区, 9.2. (ESI 高引论文)

8.      Gen Liu, Hao Li, Yuchen Xu, KaiminZhang, Luzhen Hao, Xue Yu, Yanqing Ma,Lei Ma, A simple approach for effectively improving the resolution ofscanning electrochemical cell microscopy, Sensors and Actuators: B. Chemical,2024, 409: 135603. SCI一区, 8.4.

9.      Xue Yu, Chengwei Hu, Danni Hao, GenLiu, Rui Xu, Xiaodong Zhu, Xi Yu, Yanqing Ma, Lei Ma. Tubular Carbon Nitride with Hierarchical Network: LocalizedCharge Carrier Generation and Reduced Charge Recombination for High-PerformancePhotocatalysis of H2 and H2O2 Production. Sol.RRL, 2021, 5: 2000827, SCI一区, 7.9.

10.  Gen Liu, Luzhen Hao, Hao Li, KaiminZhang, Xue Yu, Dong Li, Xiaodong Zhu, Danni Hao, Yanqing Ma, Lei Ma, Topography Mapping withScanning Electrochemical Cell Microscopy, Anal. Chem., 2022, 94: 5248−5254. SCI一区, 7.4.

11.  J. Jiang, C. Hu, Y. Wang, L. Ma, J. Guo, Ultralong organicroom-temperature phosphorescence, multiple stimulus responsiveness andhigh-level anti-counterfeiting based on multifunctional carbazolylimidazolopyridine, Materials Today Chemistry, 2023, 30: 101548. SCI一区, 7.3.

12.  Jiaying Duan, Jiapeng Wang,Liangpeng Hou, Peixuan Ji, Wusheng Zhang, Jin Liu, Xiaodong Zhu, Zhixiang Sun,Yanqing Ma, and Lei Ma, Applicationof Scanning Tunneling Microscopy and Spectroscopy in the Studies of ColloidalQuantum Qots, Chem. Rec., 2023, e202300120. SCI一区, 6.6.

13.  Jianfeng Jiang, Jiaqi Liu, ChenweiHu, Yongtao Wang, Lei Ma,Construction and fine tuning of host-guest doping systems and the underlyingmechanism of room temperature phosphorescence, Dyes and Pigments, 2024, 222:111931. SCI一区, 4.5.

14.  Jianmei Guo, Chenwei Hu, Jiaqi Liu,Yongtao Wang, Lei Ma,Mechanochromism, tunable pure organic room temperature phosphorescence,single-molecule near-white emission, digital encryption, andanti-counterfeiting, Dyes and Pigments, 2024, 2024, 221: 111760. SCI一区, 4.5.

15.  Yanjin He, Yongtao Wang, Yanjun Guo,Lei Ma, Fine adjustment of emissionwavelength, light-conversion quality, photostability of blue-violet lightconversion agents based on FRET effect, Dyes and Pigments, 2023, 217: 111429. SCI一区,4.5.

16.  Yuru Hu, Kai Wang, Yongtao Wang, Lei Ma, Perylene imide derivatives:Structural modification of imide position, aggregation caused quenchingmechanism, light-conversion quality and photostability, Dyes and Pigments,2022, 110948. SCI一区, 4.5.

17.  Yanjin He, Jiaqi Liu, Chenwei Hu,Yongtao Wang, Lei Ma, Yanjun Guo,Dicyanopyridine derivatives: One-pot preparation, ACQ-to-AIE transformation,light-conversion quality and photostability, Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy, 2024, 315: 124227. SCI一区, 4.4.

18.  Yanjin He, Yongtao Wang, Xueming Li,Yanjun Guo, Lei Ma, Breaking thebottleneck of organic light conversion agents: Preparation, performanceevaluation and intrinsic mechanism, Spectrochimica Acta Part A: Molecular andBiomolecular Spectroscopy, 2022, 288: 122161. SCI一区, 4.4.

19.  Muhammad Farooq Saleem, Niaz Ali Khan,Muhammad Javid, Ghulam Abbas Ashraf, Yasir A. Haleem, Muhammad Faisal Iqbal,Muhammad Bilal, Peijie Wang, Ma Lei,Moisture Condensation on Epitaxial Graphene upon Cooling, Technologies, 2023,11: 30. SCI一区, 3.6.

20.  Mengying Li, Pinggen Zou, Zhi Chen,Ruotong Zhao, Cao Tang, Shuai Wang, Yanqing Ma, and Lei Ma, Wafer-Scale Graphene Growth on Si/SiO2Substrates via Metal-Free Chemical Vapor Deposition, ACS Appl. Nano Mater.,2023, 6: 10817. SCI二区, 5.9.

21.  Yanmei Ren, Rongke Sun, Xue Yu,Ruoxi Wang, Wusheng Zhang, Xiaodong Zhu, Yanqing Ma and Lei Ma, A systematic study on synthesis parameters andthermoelectric properties of tellurium nanowire bundles, Materials Advances,2023, 4: 4455. SCI二区, 5.0.

22.  Kaicheng Yu, Hao Tian, Rui Li,Luzhen Hao, Kaimin Zhang, Xiaodong Zhu, Yanqing Ma, and Lei Ma, Electron-Beam Direct Writing-Based High-PerformanceGraphene Electrode Fabrication, ACS Applied electronic materials, 2023, 5:5187. SCI二区, 4.7.

23.  Xue Xiao, Wei Jin, Cao Tang, Xin Qi,Rui Li, Yi Zhang, Wusheng Zhang, Xue Yu, Xiaodong Zhu, Yanqing Ma, and Lei Ma, Thermal reduced grapheneoxide-based gas sensor for rapid detection of ammonia at room temperature,Journal of Materials science, 2023, 58: 11016. SCI二区, 4.5.

24.  Gen Liu, Xue Yu, Rui Xu, XiaodongZhu, Yanqing Ma, Lei Ma, MultipleRegulation Effects of Ammonium Acetate on ZnO Growth Process in Chemical BathDeposition, Chem. Eur. J. 2021, 27: 17620. SCI二区, 4.3.

25.  Peixuan Ji, Kaimin Zhang, ZhenzhenZhang, Mei Zhao, Rui Li, Danni Hao, Ramiro Moro, Yanqing Ma, Lei Ma, A general strategy forpolishing SiC wafers to atomic smoothness with arbitrary facets, MaterialsScience in Semiconductor Processing, 2022, 144: 106628. SCI二区, 4.1.

26.  Rui Li, Kaimin Zhang, Yi Zhang,Zhenzhen Zhang, Peixuan Ji, Chengqian Shi, Danni Hao, Yipeng Zhang, RamiroMoro, Yanqing Ma and Lei Ma,Hydrogen etching of 4H-SiC(0001) facet and step formation, Materials Science inSemiconductor Processing, 2022, 149: 106896. SCI二区, 4.1.

27.  Min Zhang, Danni Hao, Shuai Wang,Rui Li, Shou Wang, Yanqing Ma, Ramiro Moro,Lei Ma, Chiral biosensing using terahertz twisted chiral metamaterial, Opt.Express, 2022, 30: 14651. SCI二区, 3.8.

28.  Gen Liu, Danni Hao, Kai Wang, GangDong, Xue Yu, Rui Xu, Mei Ji, Xiaodong Zhu, Yanqing Ma, and Lei Ma, Direct Observation ofIntermediates from the Ring-Opening of Cetylpyridinium Chloride bySurface-Enhanced Raman Spectroscopy, J. Phys. Chem. C, 2021, 125:18792. SCI二区, 3.7.

29.  Xiaodong Zhu, Xue Yu, Jiangli Li,Hao Li, Shuai Wang, Yuchen Xu, Yanqing Ma, and Lei Ma, Graphene Enhanced Photo-Electrochemical Water Splitting byDiminishing Pt/p-Si Photocathode Interfacial Barrier, Chem. Photo Chem., 2023,e202200272. SCI二区, 3.7.

30.  Xue Wu, Qiuying Du, Si Zhou,Xiaoming Huang, Maodu Chen, Lin Miao, Guangjia Yin, Jiashuai Wang, Kai Wang,Bernd von. Issendorff, Lei Ma, JijunZhao, Structures, stabilities and electronic properties of TimSin- (m=1-2,n=14-20) clusters: a combined ab initio and experimental study, Eur. Phys. J.Plus, 2020, 135: 734. SCI二区, 3.4.

31.  Kai Wang, Zezhao Jia, Runyu Wang, Xiaodong Zhu, Ramiro Moro and Lei Ma,TMGe8-17-(TM = Ti, Zr, Hf, V, Nb, Ta) clusters: groupdetermined properties, European Physical Journal Plus, 2022, s13360. SCI二区, 3.4.

32.  Kai Wang, Lin Miao, Zezhao Jia,Runyu Wang, Guangjia Yin, Xiaodong Zhu, Ramiro Moro and Lei Ma, Structural evolution and electronic properties of pure andsemiconductor atom doped In clusters: Inn-, InnSi-, and InnGe- (n = 3-16),Journal of Computational Chemistry, 2022, 26998. SCI二区, 3.0.

33.  Danni Hao, Yi Zhang, Dongxun Yang, Rui Li, Dan Zhao,Zhenzhen Zhang, Shuai Wang, Wei Jin, Hao Tian, Jiaying Duan, Fei Fan,Shengjiang Chang, Ramiro Moro, Lei Ma, Silicon Bowtie Structure BasedAdjustable Non-rigid All Nonmetal Metamaterials Terahertz Filter, OpticsLetters, 47:6101. SCI二区, 3.0.

34.  Kai Wang, Guang-Jia Yin, Ze-ZhaoJia, Lin Miao, Hong-Yuan Zhao, Ramiro Moro, Bernd von Issendorff, Lei Ma, Structural evolution,electronic and magnetic properties investigation of V3Sin- (n=14–18) clustersbased on photoelectron spectroscopy and density functional theory calculations,Chemical Physics Letters, 2023, 820: 140423. SCI二区, 2.8.

35.  Kai Wang, Shao-Zheng Fang, ZhengFan, Hong-Yuan Zhao, Lin Miao, Guang-Jia Yin, Ramiro Moro, Lei Ma, Reconciliation of the theoretical and experimental value ofthe static electric polarizability of the aluminum atom, Journal of ClusterScience, 2022, s10876. SCI二区, 2.8.

36.  Kaimin Zhang, Peixuan Ji, Jian Zhao,Dongxun Yang, Mei Zhao, Zhenzhen Zhang, Gen Liu, and Lei Ma, Low contact resistance side-interconnects strategy forepi-graphene based electronic integration, J Mater Sci: Mater Electron, 2022,33: 17249. SCI二区, 2.8.

37.  Shuo Wang, Xin Qi, Danni Hao, RamiroMoro, Yanqing Ma, Lei Ma,Review-Recent Advances in Graphene-Based Field-Effect-Transistor Biosensors: AReview on Biosensor Designing Strategy, Journal of The Electrochemical Society,2022, 169: 027509. SCI三区, 3.9.

38.  Kai Wang, Zezhao Jia, Zheng Fan,Hongyuan Zhao, Lin Miao, Guangjia Yin, Ramiro Moro, Bernd v. Issendorff and Lei Ma, Structures and ElectronicProperties of VSin− (n=14-20) Clusters: a Combined Experimental and DensityFunctional Theory Study, Physical Chemistry Chemical Physics, 2022, 24: 8839. SCI三区, 3.3.

39.  Kai Wang, Guangjia Yin, Zezhao Jia,Lin Miao, Ramiro Moro, Bernd v. Issendorff and Lei Ma, Anion photoelectron spectroscopy and density functionaltheory study of TM2Sin- (TM=V, Cr; n=14-20) clusters, Physical Chemistry ChemicalPhysics, 2022, 24: 18321. SCI三区, 3.3.

40.  Shuo Wang, Xin Yan, Min Zhang, GangDong, Ramiro Moro, Yanqing Ma, Lei Ma,Real-time size tuning and measuring of silver nanoparticles by cyclicvoltammetry and Raman spectroscopy, Materials Letters, 2022, 310: 131420. SCI三区, 3.0.

41.  Kai Wang, Hong-Yuan Zhao, Lin Miao, Ze-Zhao Jia, Guang-Jia Yin, Xiao-DongZhu, Ramiro Moro, Bernd von Issendorff, and Lei Ma, PhotoelectronSpectroscopy and Density Functional Investigation of the Structural Evolution,Electronic, and Magnetic Properties of CrSin− (n=14-18) Clusters, Journal ofphysical chemistry A, 2022, 126: 1329. SCI三区, 2.9.

42.  Kiran Majer, Lei Ma, and von Issendorff, Bernd, PhotoelectronSpectroscopy of Large Water Cluster Anions, Journal of physical chemistry A,2021, 125: 8426. SCI三区, 2.9.

43.  Yi Zhang, Dongxun Yang, Dan Zhao,Danni Hao, Pinggen Zou, Yanmei Ren, Rui Li, Xiaodong Zhu, Fei Fan, ShengjiangChang, Ramiro Moro, Lei Ma, Dual-frequency switchable bandpass filter in theterahertz range based on enhanced trapped-mode resonances, Chem. Phys. Lett.,2023, 826: 140637. SCI三区, 2.8.

44.  Jiangli Li, Xue Yu, Rongke Sun, HaoLi, Xiaodong Zhu, Yanqing Ma, and Lei Ma, One-step synthesis of Co3O4Nanoparticles/Laser Induced Graphene composites in ambient condition forelectrocatalytic OER reaction, Carbon Trends, 2023, 12: 100285. SCI三区,2.6.

45.  Dong Li, Xiaodong Zhu, Yanan Wu,Jian Zhao, Kaimin Zhang, Rui Li, Danni Hao, Yanqing Ma, Ramiro Moro, Lei Ma,La-doped BiFeO3 junction based random access multilevel nonvolatile memory,Microelectronic Engineering, 2022, 267: 111908. SCI三区, 2.3.

46.  Xiao Zhang, Zhe Li, Xun Tian, Yanqing Ma, Lei Ma, Highly OrderedMicropores Activated Carbon from Long Fiber Biomass for High Energy DensitySupercapacitors, Chemistry Select 2021, 6(45), 13015-13023. SCI三区,2.1.

47.  Jianfeng Jiang, Yongtao Wang, Lei Ma, Xueming Li, Xiaojuan Wang,Yanjun Guo, AIE activity, mechanochromic property and solvent inclusion of twobdiketones with tetraphenylethylene unit, Tetrahedron, 2023, 133355. SCI三区, 2.1.

48.  Shuai Wang, Mengying Li, Zhi Chen, Lirong Zhao, Mei Zhao,Yanqing Ma, Lei Ma, Study of Solid Carbon Source based Graphene growthdirectly on SiO2 substrate with Cu or Cu/Ni as the Sacrificial Catalysts, MRSCommunications, 2022, s43579. SCI三区, 1.9.

49.  Kai Wang, Xiaohan Wang, Zheng Fan, Hong-YuanZhao, Lin Miao, Guang-Jia Yin, Ramiro Moro, and Lei Ma, Staticdipole polarizabilities of atoms and ions from Z=1 to 20 calculated within asingle theoretical scheme, Eur. Phys. J. D 75, 46 (2021). SCI三区, 1.8.

50.  Ziwen Zhou, Yifan Li, Zhaojun Liu,Runyu Wang, Tianjie Ma, Zezhao Jia, Guangjia Yin, Ramiro Moro, and Lei Ma,Design of a Simple and low-cost Solid-state ultra-fast high-voltage switch,Rev. Sci. Instrum., 2023, 94: 064709. SCI三区,1.6.

51.  Lin Miao, Zhaojun Liu, Zeyang Chen, Xiaohan Wang, ZiwenZhou, Jinbo Zhao, Shaozheng Fang, Guangjia Yin, Zezhao Jia, Jin Liu, RamiroMoro, Walt A. de Heer, Lei Ma, Fourth gengeration cryogenic neutralcluster beam apparatus for studying fundamental properties of metallicclusters, Rev.Sci. Instrum., 2022, 5.0087524. SCI三区, 1.6.

52.  Zeyang Chen, Xiaohan Wang, Ziwen Zhou, Ramiro Moro, and Lei Ma, Asimple Field Programmable Gate Array (FPGA) based high precision low-jitterdelay generator, Rev. Sci. Instrum. 92, 024701 (2021). SCI三区, 1.6.

53.  Zezhao Jia, Zhaojun Liu, XiaohanWang, Runyu Wang, Tianjie Ma, Ziwen Zhou, Ramiro Moro, Bernd von Issendorff,Lei Ma, Simple high-resolution Bradbury–Nielsen mass gate, AIP Advances, 2024,14: 035312. SCI四区, 1.6.

54.  Zhenzhou Cheng, Rongxiang Guo, Jiaqi Wang, Yi Wang, Zhengkun Xing,Lei Ma, Wei Wei, Yu Yu, Hon Ki Tsang and Tiegen Liu, Integratedoptoelectronics with two-dimensional materials, National Science Open, 2022, 1:20220022.

55.  Xiao Zhang, Mei Zhao, Zejian Chen, Tong Yan, Jiangli Li,Yanqing Ma and Lei Ma, The application of biomass-based carbon materialsin flexible all-solid supercapacitors, J Mater Sci: Mater Electron, 2022,s10854. SCI四区, 1.9.

56.  Zhenzhen Zhang, Dongxun Yang, Gang Dong, Rui Li, YiZhang, Ramiro Moro, Yanqing Ma and Lei Ma*, Role of temperatureand Ar flow on the uniformity of epitaxial graphene grown on SiC, Bulletin ofMaterials Science, 2022, 46: 60. SCI四区, 1.8.


科研条件及保障措施

01  现有科研用房

纳米中心的建筑办公面积2000多平方米,其中科研用房面积超过1000平方米,建有表征测试实验室,加工制备实验室、团簇综合谱仪实验室、化学合成及催化表征实验室。

02  科研仪器设备

纳米中心科研设备总量超300台套。其中包括低温扫描隧道显微镜、扫描电子显微镜、原子力显微镜系统、电子束及热蒸发金属蒸镀系统、原子层沉积系统、化学反应离子刻蚀系统、激光直写系统、Nanonics低温集成加工及探针系统、Nanonics环境集成探针系统、低温强磁系统、低温探针台、双泵浦飞秒激光、可变频纳秒激光、深紫外准分子激光、气相色谱质谱联用、基于电子显微镜的电子束曝光系统等大型设备,以及包括气相色谱、低能电子衍射仪、半导体性能测试仪、网络分析仪、超高灵敏度电容电桥、半导体超声键合机、开放空间探针台、纳米级石英探针拉针仪、电化学工作站、紫外可见分光光度计、手套箱、高功率感应加热系统、CVD管式加热系统、无液氦超低温冷头、超硬材料磨抛机、金刚石线切割机、X射线晶体定向仪、光学显微镜、宽频带高速示波器、锁相放大器、精密高压电源、以及各种用于电输运性质测量用的仪表、电流电压放大器等等。

03  科研配套设施

1. 机械加工中心:建有自有的机械加工平台,配有普通车床、立式数字加工中心和铣床等多台精密加工设备,另配有车铣集成一体机、钻床、砂轮机和砂带机等小型辅助加工设备。机械加工中心聘有经验丰富的加工技师,能够满足实验室日常零件加工以及大型设备搭建过程中精密部件的制作需求;

2. 高性能计算中心:建有独立的高性能计算中心,计算内容已涵盖电催化、团簇、有限元仿真,机器学习、荧光磷光等等多个方面,能够有效辅助实验室的基础研究工作;

3. 液氮供应站:建有5吨级储量的液氮存储供应站,能够有效保障实验室高效运转所需的液氮供给。

04  交流合作

纳米中心是一个主张共享与开放的研究机构。中心大型仪器的设计与建造全部由师生亲自动手完成。与此同时,中心积极推进与国内厂商的技术共享,为其提供全面的技术支持与产品性能提升的详细方案。目前已与多家厂商合作设计并改进了多台大型设备及组件。中心与厂商在合作过程中实现了互利共赢,不仅显著提升了多种产品性能,而且促使中心的学生得到了丰富的实践机会。


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