王守志
研究员
访问次数:
基本信息
  • 教师拼音名称:
    Wang Shouzhi
  • 入职时间:
    2021-08-26
  • 所在单位:
    新一代半导体材料研究院
  • 办公地点:
    新一代半导体大楼408室
  • 性别:
  • 在职信息:
    在职
  • 博士生导师
  • 硕士生导师
教师简介

王守志,研究员、博士生导师,山东大学齐鲁青年学者。2019年于山东大学获得博士学位,之后于德国伊尔梅瑙工业大学和山东大学从事博士后研究工作。2021年8月入职山东大学新一代半导体材料研究院。主要从事GaN晶体生长及其电化学性能研究工作。以第一/通讯作者在Adv. Mater.(2篇), Adv. Energy. Mater., Adv. Func. Mater., Adv. Sci. 等国际著名期刊发表SCI论文20余篇,申请/获授权专利10项。先后主持国家自然科学基金青年项目,JW科技委重大项目课题,山东省自然科学基金青年基金,博士后特别资助和面上项目累计400余万元。曾获省山东省优秀博士学位论文,山东省研究生优秀成果奖,山东大学学术之星,校长奖学金等荣誉,担任国际期刊Advanced Powder Materials青年编委和Materials期刊客座编辑,并受邀担任AFM,JMCA,ACSAMI.等国际期刊的审稿人。

研究领域

1、氮化镓单晶生长研究

2、氮化镓基宽温域电化学储能研究

科研成果
研究方向

暂无内容

论文

1.  李秋波. Efficient access to non-damaging GaN (0001) by inductively coupled plasma etching and chemical–mechanical polishing.  Applied Surface Science,  2024. 

2.  吕松阳. Gallium Nitride Based Electrodefor High-Temperature Supercapacitor.  Advanced Science,  10,  2023. 

3.  Cao, Wenhao. Effect of Air Layer Thickness on AlN Crystal Growth by the PVT Method.  CRYSTAL GROWTH & DESIGN,  2024. 

4.  Lv, Songyang. Wafer Scale Gallium Nitride Integrated Electrode Toward Robust High Temperature Energy Storage.  small,  2024. 

5.  Liang, Chang. Silicon carbide single crystals for high-temperature supercapacitors.  Nanoscale,  2024. 

6.  Cao, Wenhao. Optical properties of conductive and semi-insulating HVPE-GaN crystals.  CrystEngComm,  2024. 

7.  Zhao, Xuanyi. Advance Chemical Mechanical Polishing Technique for Gallium Nitride Substrate.  Advanced Materials Interfaces,  2024. 

8.  孙德福. Research Progress in Liquid Phase Growth of GaN Crystals.  chemistry-a European journal,  2024. 

9.  Wang, Benfa. Studying the effect of temperature and pressure on GaN crystals via the Na-flux method.  CrystEngComm,  26,  3176-3184, 2024. 

10.  Wang, Benfa. Research Progress on the Growth of GaN Single Crystal by Sodium Flux Method 基于钠助熔剂法的 GaN 单晶生长研究进展.  《人工晶体学报》,  52,  183-195, 2023. 

11.  Wu, Yuzhu. Optimizing HVPE flow field to achieve GaN crystal uniform growth.  journal of crystal growth,  614,  2023. 

12.  Liang, Chang. Novel semiconductor materials for advanced supercapacitors.  Journal of Materials Chemistry C,  11,  4288-4317, 2023. 

13.  Li, Qiubo. Research progress in the postprocessing and application of GaN crystal.  CrystEngComm,  25,  715-725, 2023. 

14.  Li, Zhan. Thermal instability-induced formation of hierarchically structured porous GaN/nitrogen-doped carbon with high performance for supercapacitor.  Journal of Energy Storage,  72,  2023. 

15.  Gallium Nitride Based Electrode for High-Temperature Supercapacitors.  ADVANCED SCIENCE,  10,  2023. 

16.  GaN 单晶的HVPE生长与掺杂进展.  无机材料学报,  38,  2023. 

17.  Novel semiconductor materials for advanced supercapacitors.  JOURNAL OF MATERIALS CHEMISTRY C,  11,  4288-4317, 2023. 

18.  基于钠助熔剂法的GaN 单晶生长研究进展.  人工晶体学报,  52,  2023. 

19.  Research progress in the postprocessing and application of GaN crystal.  CRYSTENGCOMM,  25,  715-725, 2023. 

20.  吕松阳. Vacancy-modified few-layered GaN crystal for novel high-temperature energy storage.  J. Mater. Chem. A.,  22007, 2022. 

21.  Vacancy-modified few-layered GaN crystal for novel high-temperature energy storage.  JOURNAL OF MATERIALS CHEMISTRY A,  10,  22007-22015, 2022. 

22.  李秋波. A perovskite/porous GaN crystal hybrid structure for ultrahigh sensitivity ultraviolet photodetectors.  JOURNAL OF MATERIALS CHEMISTRY C,  10,  8321-8328, 2022. 

23.  王守志. Construction of Novel Bimetallic Oxyphosphide as Advanced Anode for Potassium Ion Hybrid Capacitor.  Advanced Science,  2105193, 2022. 

24.  刘磊. Nucleation mechanism of GaN crystal growth on porous GaN/sapphire substrates.  CRYSTENGCOMM,  24,  1840, 2022. 

25.  Construction of Novel Bimetallic Oxyphosphide as Advanced Anode for Potassium Ion Hybrid Capacitor.  ADVANCED SCIENCE,  2022. 

26.  Valence modulated nickel oxynitride network as integrated bifunctional electrodes for enhanced energy storage.  JOURNAL OF ENERGY CHEMISTRY,  56,  56-63, 2021. 

27.  王守志. Insight into Nickel-Cobalt Oxysulfide Nanowires as Advanced Anode for Sodium-Ion Capacitors.  Advanced Energy Materials,  2021. 

28.  Insight into Nickel-Cobalt Oxysulfide Nanowires as Advanced Anode for Sodium-Ion Capacitors.  ADVANCED ENERGY MATERIALS,  11,  2021. 

29.  王守志. Valence modulated nickel oxynitride network as integrated bifunctional electrodes for enhanced energy storage.  JOURNAL OF ENERGY CHEMISTRY,  2020. 

30.  王守志. Oxygen Vacancy Modulation of Bimetallic Oxynitride Anodes toward Advanced Li-Ion Capacitors.  Advanced functional materials,  2020. 

31.  Oxygen Vacancy Modulation of Bimetallic Oxynitride Anodes toward Advanced Li-Ion Capacitors.  ADVANCED FUNCTIONAL MATERIALS,  30,  2020. 

32.  史栋. Ultrasonic-Ball Milling: A Novel Strategy to Prepare Large-Size Ultrathin 2D Materials.  Small,  16,  2020. 

33.  Ultrasonic-Ball Milling: A Novel Strategy to Prepare Large-Size Ultrathin 2D Materials.  SMALL,  16,  2020. 

34.  Transition-Metal Oxynitride: A Facile Strategy for Improving Electrochemical Capacitor Storage.  ADVANCED MATERIALS,  31,  2019. 

35.  Elastic sandwich-type GaN/MnO2/MnON composites for flexible supercapacitors with high energy density.  JOURNAL OF MATERIALS CHEMISTRY A,  6,  13215-13224, 2018. 

36.  Band gap-Tunable Porous Borocarbonitride Nanosheets for High Energy-Density Supercapacitors.  ACS APPLIED MATERIALS & INTERFACES,  10,  19588-19597, 2018. 

37.  Three-Dimensional MoS2@CNT/RGO Network Composites for High-Performance Flexible Supercapacitors.  CHEMISTRY-A EUROPEAN JOURNAL,  23,  3438-3446, 2017. 

38.  One-step fabrication of porous GaN crystal membrane and its application in energy storage.  SCIENTIFIC REPORTS,  7,  2017. 

39.  Self-Supporting GaN Nanowires/Graphite Paper: Novel High-Performance Flexible Supercapacitor Electrodes.  SMALL,  13,  2017. 

40.  王守志. Gallium Nitride Crystals: Novel Supercapacitor Electrode Materials.  ADVANCED MATERIALS ,  3768, 2016. 

41.  Reduced graphene oxide grafted by the polymer of polybromopyrroles for nanocomposites with superior performance for supercapacitors.  Journal of Materials Chemistry A,  3,  21257–21268, 2015. 

42.  Thermal Cyclodebromination of Polybromopyrroles to Polymer with High Performance for Supercapacitor.  JOURNAL OF PHYSICAL CHEMISTRY C,  119,  3881-3891, 2015. 

专利
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