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高寒阳

职称:副教授

毕业院校:上海交通大学

邮件:gaohanyang@gmail.com

办公地点:

职务:

研究方向:

  • 个人简介
  • 教学与课程
  • 科研项目
  • 论文
  • 著作
  • 专利成果
  • 荣誉及奖励
  • 软件成果
个人简介
教育经历

  • 博士研究生,2014-03-01,机械工程,上海交通大学,01-MAR-14 12.00.00.000000000 AM,上海交通大学


工作经历
社会职务
研究领域
教学与课程
横向科研

  • 超声操控超临界流体组装石墨烯基柔性电子器件的基础研究,2018-06-07,2018-05-01,高寒阳,在研,机械工程学院,8

  • 声流镊子组装图案化微纳结构的操控原理和关键技术,2019-11-22,2019-07-01,高寒阳,在研,自选课题(校内项目),机械工程学院,物理学,20


纵向科研

  • 近临界区CO2中超声诱导的异相成核空化特性和石墨烯片层的剥离机制,2015-08-17,2016-01-01,2019-03-27,高寒阳,结题,国家自然科学基金项目,机械工程学院,管理学,23.8

  • 超临界CO2流体中超声诱导的多相/多场耦合作用特性和界面自组装调控机理,2018-08-16,2019-01-01,高寒阳,在研,机械工程学院,63


论文

  • Scalable synthesis of hierarchical hollow Li4Ti5O12 microspheres assembled by zigzag-like nanosheets for high rate lithium-ion batteries,2017-02-01,Journal of Power Sources,SCIE,高寒阳,340/2017/263-272

  • Scalable synthesis of hierarchical hollow Li4Ti5O12 microspheres assembled by zigzag-like nanosheets for high rate lithium-ion batteries,2017-02-01,Journal of Power Sources,SCIE,高寒阳,340/2017/263-272

  • Preparation of waterborne dispersions of epoxy resin by ultrasonic-assisted supercritical CO2 nanoemulsification technique,2017-11-01,ULTRASONICS SONOCHEMISTRY,SCIE,EI,高寒阳,卷: 39 页: 520-527

  • Production of graphene quantum dots by ultrasound-assisted exfoliation in supercritical CO2/H2O medium,2017-07-01,ULTRASONICS SONOCHEMISTRY,SCIE,EI,高寒阳,卷: 37 页: 120-127

  • Layered titanate hierarchical spheres as a promising pseudocapacitive electrode material for high rate lithium ion batteries,2018-10-01,Powder Technology,高寒阳,338/2018/17-25

  • Layered titanate hierarchical spheres as a promising pseudocapacitive electrode material for high rate lithium ion batteries,2018-10-01,Powder Technology,高寒阳,338/2018/17-25

  • Scalable preparation of defect-rich free-standing TiO2 sheets with visible-light photocatalytic activity,2018-06-01,APPLIED CATALYSIS B-ENVIRONMENTAL,SCIE,EI,高寒阳,卷: 226 页: 337-345

  • A flexible mesoporous Li4Ti5O12-rGO nanocomposite film as free-standing anode for high rate lithium ion batteries,2018-02-01,Journal of Power Sources,高寒阳,375/2018/59–67

  • A flexible mesoporous Li4Ti5O12-rGO nanocomposite film as free-standing anode for high rate lithium ion batteries,2018-02-01,Journal of Power Sources,高寒阳,375/2018/59–67

  • Statistical and frequency analysis of pressure fluctuation in an annular spouted bed of coarse particles,2017-07-01,POWDER TECHNOLOGY,SCIE,EI,高寒阳,卷: 317 页: 216-223

  • High internal phase Pickering emulsions stabilized with graphene oxide in supercritical CO2 system,2020-01-01,J. Supercritical Fluids,SCIE,EI,v 155,

  • Infusion of graphene in natural rubber matrix to prepare conductive rubber by ultrasound-assisted supercritical CO2 method,2019-07-15,CHEMICAL ENGINEERING JOURNAL,SCIE,EI,卷: 368 页: 1013-1021

  • Preparation of a Highly Stable Dispersion of Graphene in Water with the Aid of Graphene Oxide,2019-09-25,Ind. Eng. Chem. Res.,SCIE,EI,v 58,n 38,p17842-17849

  • Hyperelastic characteristics of graphene natural rubber composites and reinforcement and toughening mechanisms at multi-scale,2019-11-15,COMPOSITE STRUCTURES,SCIE,卷: 228

  • Facile preparation of core-shell Si@Li4Ti5O12 nanocomposite as large-capacity lithium-ion battery anode,2020-01-01,Journal of Energy Chemistry,SCIE,卷: 40 页: 89-98

  • Core-shell structured Si@C nanocomposite for high-performance Li-ion batteries with a highly viscous gel as precursor,2019-10-31,JOURNAL OF POWER SOURCES,SCIE,卷: 438

  • Highly sensitive natural rubber/pristine graphene strain sensor prepared by a simple method,2019-01-01,Compos Part B: Eng,SCIE,EI,v 171,p138-145

  • Silicon-Based Self-Assemblies for High Volumetric Capacity Li-Ion Batteries via Effective Stress Management,2020-08-01,Advanced Functional Materials,SCIE,EI,v 30,n 35,

  • 改性石墨烯对天然橡胶/丁腈橡胶复合材料热性能的影响,2020-02-20,塑料工业,2020年02期:74-78,5

  • 依溶解度系数制备高导电石墨烯/橡胶复合物,2019-11-15,化学工程,2019年11期:25-28,4

  • 氧化石墨烯对本征石墨烯在天然橡胶基体中的分散促进作用研究,2019-08-30,功能材料,2019年08期:8201-8204,4

  • Viscoelastic and fatigue properties of graphene and carbon black hybrid structure filled natural rubber composites under alternating loading,2020-12-30,Construction and Building Materials,SCIE,EI,高寒阳,v 265,

  • Experimental test and curve fitting of creep recovery characteristics of modified graphene oxide natural rubber and its relationship with temperature,2020-07-01,POLYMER TESTING,SCIE,EI,卷: 87

  • Ultrasonic cavitation in CO2-expanded N, N-dimethylformamide (DMF),2021-10-01,Ultrasonics Sonochemistry,SCIE,EI,v 78,

  • Confined interfacial assembly of controlled Li2Ti3O7 building blocks and Si nanoparticles in Lithium-ion batteries,2021-10-24,Energy Storage Materials,SCIE,高寒阳,44,239-249


著作
专利成果

  • 一种导电增强型功能橡胶的制备方法,发明专利,专利授权,201910122109.5,CN110437509B,2021-06-25,机械工程学院,高寒阳

  • 一种富含缺陷位的片状金属氧化物薄膜的制备方法,发明专利,专利申请,201711400013.8,机械工程学院,高寒阳

  • 一种导电橡胶的制备方法,发明专利,专利授权,201811337152.5,CN109485930B,2021-04-20,机械工程学院,高寒阳

  • 一种利用超临界流体技术制备复合型导电橡胶的方法,发明专利,专利授权,201811381769.7,CN109608704B,2021-06-08,机械工程学院,高寒阳

  • 一种利用紫外光照射超临界流体制备纳米金属担载型复合光催化剂的方法,发明专利,专利申请,201910396306.6,机械工程学院,高寒阳

  • 一种在超临界流体介质改性的石墨烯作为导电填料制备导电橡胶的方法,发明专利,专利授权,201910396307.0,CN110183754B,2021-07-13,机械工程学院,高寒阳


荣誉及奖励
软件成果