基本信息
张凯 男 博导 中国科学院苏州纳米技术与纳米仿生研究所
电子邮件: kzhang2015@sinano.ac.cn
通信地址: 江苏省苏州市苏州工业园区独墅湖高教区若水路398号
邮政编码: 215123
电子邮件: kzhang2015@sinano.ac.cn
通信地址: 江苏省苏州市苏州工业园区独墅湖高教区若水路398号
邮政编码: 215123
研究领域
1. 二维材料CVD生长(石墨烯、氮化硼等);
2. 石墨烯-氮化硼系统及其光电性能研究;
3. 基于二维材料的新型微纳光电子器件;
4. 二维材料表面等离激元;
5. 微纳传感器
2. 石墨烯-氮化硼系统及其光电性能研究;
3. 基于二维材料的新型微纳光电子器件;
4. 二维材料表面等离激元;
5. 微纳传感器
招生信息
招生专业
080501-材料物理与化学
080903-微电子学与固体电子学
070205-凝聚态物理
080903-微电子学与固体电子学
070205-凝聚态物理
招生方向
二维材料CVD生长(石墨烯、氮化硼等)
石墨烯-氮化硼系统及其光电性能研究
基于二维材料的新型微纳光电子器件
石墨烯-氮化硼系统及其光电性能研究
基于二维材料的新型微纳光电子器件
教育背景
2007-10--2011-03 香港理工大学 博士
2004-09--2007-06 湖北大学 硕士
2000-09--2004-06 湖北大学 本科
2004-09--2007-06 湖北大学 硕士
2000-09--2004-06 湖北大学 本科
工作经历
工作简历
2015-03--今 中国科学院苏州纳米技术与纳米仿生研究所 研究员
2011-07--2015-03 新加坡国立大学 博士后
2011-04--2011-06 香港理工大学 博士后
2009-09--2011-02 麻省理工学院 研究助理
2011-07--2015-03 新加坡国立大学 博士后
2011-04--2011-06 香港理工大学 博士后
2009-09--2011-02 麻省理工学院 研究助理
专利与奖励
专利成果
(1) 具有AlN晶化过渡层的体声波谐振器的制造方法,发明,2009,第4作者,专利号:CN 100461630 C
(2) Method of growing uniform, large scale, multilayer graphene film,发明,2013,第2作者,专利号:WO 2013/172792 A1
(2) Method of growing uniform, large scale, multilayer graphene film,发明,2013,第2作者,专利号:WO 2013/172792 A1
出版信息
发表论文
(1) Graphene Nanobubbles: A New Optical Nonlinear Material,Advanced Optical Materials,2015,第4作者
(2) Large scale graphene/hexagonal boron nitride heterostructure for tunable plasmonics,Advanced Functional Materials,2014,第1作者
(3) A hydrothermal anvil made of graphene nanobubbles on diamond,Nature Communications,2013,第5作者
(4) Order-Disorder Transition in a Two-Dimensional Boron-Carbon-Nitride Alloy,Nature Communications,2013,第1作者
(5) Microfluidic flow direction control using continuous-wave laser,Sensors And Actuators A-Physical,2012,第2作者
(6) Monitoring of dopamine release in single cell using ultrasensitive ITO microsensors modified with carbon nanotubes,Biosensors and Bioelectronics,2011,第3作者
(7) Shear-mode PMN-PT piezoelectric single crystal resonator for microfluidic applications,Microelectronic Engineering,2011,第1作者
(8) Laser-induced thermal bubbles for microfluidic applications,Lab on a Chip,2011,第1作者
(9) Realization of planar mixing by chaotic velocity in microfluidics,Microelectronic Engineering,2011,第1作者
(10) Synthesis of Few-Layer Hexagonal Boron Nitride Thin Film by Chemical Vapor Deposition,Nano Letters,2010,第5作者
(11) Optofluidic microcavities: dye-lasers and biosensors,Biomicrofluidics,2010,第3作者
(12) A microfluidic system with surface modified piezoelectric sensor for cancer cell trapping and detection,Biosensors and Bioelectronics,2010,第1作者
(13) Release monitoring of single cells on a microfluidic device coupled with fluorescence microscopy and electrochemistry,Biomicrofluidics,2010,第5作者
(14) A microfluidic system with embedded acoustic wave sensor for in-situ detection of dynamic fluidic properties,Microelectronic Engineering,2010,第1作者
(15) Generation of Janus Alginate Hydrogel Particles with Magnetic Anisotropy for Cell Encapsulation,Lab on a Chip,2009,第3作者
(16) Ultrasonic particle trapping in microfluidic devices using soft lithography,Applied Physics Letters,2008,第3作者
(2) Large scale graphene/hexagonal boron nitride heterostructure for tunable plasmonics,Advanced Functional Materials,2014,第1作者
(3) A hydrothermal anvil made of graphene nanobubbles on diamond,Nature Communications,2013,第5作者
(4) Order-Disorder Transition in a Two-Dimensional Boron-Carbon-Nitride Alloy,Nature Communications,2013,第1作者
(5) Microfluidic flow direction control using continuous-wave laser,Sensors And Actuators A-Physical,2012,第2作者
(6) Monitoring of dopamine release in single cell using ultrasensitive ITO microsensors modified with carbon nanotubes,Biosensors and Bioelectronics,2011,第3作者
(7) Shear-mode PMN-PT piezoelectric single crystal resonator for microfluidic applications,Microelectronic Engineering,2011,第1作者
(8) Laser-induced thermal bubbles for microfluidic applications,Lab on a Chip,2011,第1作者
(9) Realization of planar mixing by chaotic velocity in microfluidics,Microelectronic Engineering,2011,第1作者
(10) Synthesis of Few-Layer Hexagonal Boron Nitride Thin Film by Chemical Vapor Deposition,Nano Letters,2010,第5作者
(11) Optofluidic microcavities: dye-lasers and biosensors,Biomicrofluidics,2010,第3作者
(12) A microfluidic system with surface modified piezoelectric sensor for cancer cell trapping and detection,Biosensors and Bioelectronics,2010,第1作者
(13) Release monitoring of single cells on a microfluidic device coupled with fluorescence microscopy and electrochemistry,Biomicrofluidics,2010,第5作者
(14) A microfluidic system with embedded acoustic wave sensor for in-situ detection of dynamic fluidic properties,Microelectronic Engineering,2010,第1作者
(15) Generation of Janus Alginate Hydrogel Particles with Magnetic Anisotropy for Cell Encapsulation,Lab on a Chip,2009,第3作者
(16) Ultrasonic particle trapping in microfluidic devices using soft lithography,Applied Physics Letters,2008,第3作者
科研活动
曾参与科研课题、项目:
1. 二维纳米材料非线性等离子体性能研究(Nonlinear Plasmonics to Overcome the Conventional Limit),新加坡国家科研基金
2. 原位控制及大面积生长石墨烯量子点(From In Situ Observation to The Growth Scaling of Graphene Quantum Dots),新加坡国家教育部科研基金
3. 超越石墨烯的新型二维纳米材料(Novel 2D materials with tailored properties: beyond graphene),新加坡国家科研基金
4. 石墨烯相关材料与器件(Graphene related Maeterials and Devices),新加坡国家科研基金会重大基础研究
5. 面向太赫兹电子的石墨烯研究(Graphene Approaches to Terahertz Electronics),美国多学科大学研究倡议项目
1. 二维纳米材料非线性等离子体性能研究(Nonlinear Plasmonics to Overcome the Conventional Limit),新加坡国家科研基金
2. 原位控制及大面积生长石墨烯量子点(From In Situ Observation to The Growth Scaling of Graphene Quantum Dots),新加坡国家教育部科研基金
3. 超越石墨烯的新型二维纳米材料(Novel 2D materials with tailored properties: beyond graphene),新加坡国家科研基金
4. 石墨烯相关材料与器件(Graphene related Maeterials and Devices),新加坡国家科研基金会重大基础研究
5. 面向太赫兹电子的石墨烯研究(Graphene Approaches to Terahertz Electronics),美国多学科大学研究倡议项目
科研项目
(1) 中科院****,主持,院级级,2016-01--2018-12
(2) 中科院****研究所匹配启动,主持,研究所(学校)级,2015-06--2017-08
(2) 中科院****研究所匹配启动,主持,研究所(学校)级,2015-06--2017-08
参与会议
(1) Graphene/Hexagonal Boron Nitride Heterostructure Plasmonics and Optics,2014-09,Kai Zhang, Antonio H. Castro Neto, Kian Ping Loh
(2) CVD Graphene Enhanced Photocurrent Rabi Oscillations Generated by Internal Magnetic Fields in the Al-SiO2 Interface,2013-06,Venkatram Nalla, Kai Zhang, Kian Ping Loh, and Wei Ji
(3) Optofluidic manipulation using continuous-wave laser,2011-12,Aoqun Jian, Ning Wang, Kai Zhang, Yu Wang, Yuen H. Tsang and Xuming Zhang
(4) Laser-actuated micro-valves and micro-pumps,2011-06,Aoqun Jian, Kai Zhang, Yu Wang, and Xuming Zhang
(5) PMN-PT single crystal transducers for microfluidic applications,2010-10,Helen Lai Wa Chan, Sieu Ting Lau, Kai Zhang, Yu Wang, and, Haosu Luo
(6) Transition metal catalyst-assisted LPCVD and APCVD syntheses of large area mono- and few layer graphene,2010-04,Sreekar Bhaviripudi, Alfonso Reina, Ki Kang Kim, Kai Zhang, and Jing Kong
(7) Smart microfluidic systems with integrated high-sensitivity piezoelectric microsensors,2009-07,Kai Zhang, Helen Lai Wa Chan and Yu Wang
(8) Integration of piezoelectric microsensors and transducers in microfluidic systems,2009-01,Yu Wang, Kai Zhang, and Helen Lai Wa Chan
(9) A smart microfluidic acoustic system for in situ detection of dynamic fluids,2008-11,Kai Zhang, Libo Zhao, Shishang Guo, Baoxian Shi, Helen Lai Wa Chan, and Yu Wang
(2) CVD Graphene Enhanced Photocurrent Rabi Oscillations Generated by Internal Magnetic Fields in the Al-SiO2 Interface,2013-06,Venkatram Nalla, Kai Zhang, Kian Ping Loh, and Wei Ji
(3) Optofluidic manipulation using continuous-wave laser,2011-12,Aoqun Jian, Ning Wang, Kai Zhang, Yu Wang, Yuen H. Tsang and Xuming Zhang
(4) Laser-actuated micro-valves and micro-pumps,2011-06,Aoqun Jian, Kai Zhang, Yu Wang, and Xuming Zhang
(5) PMN-PT single crystal transducers for microfluidic applications,2010-10,Helen Lai Wa Chan, Sieu Ting Lau, Kai Zhang, Yu Wang, and, Haosu Luo
(6) Transition metal catalyst-assisted LPCVD and APCVD syntheses of large area mono- and few layer graphene,2010-04,Sreekar Bhaviripudi, Alfonso Reina, Ki Kang Kim, Kai Zhang, and Jing Kong
(7) Smart microfluidic systems with integrated high-sensitivity piezoelectric microsensors,2009-07,Kai Zhang, Helen Lai Wa Chan and Yu Wang
(8) Integration of piezoelectric microsensors and transducers in microfluidic systems,2009-01,Yu Wang, Kai Zhang, and Helen Lai Wa Chan
(9) A smart microfluidic acoustic system for in situ detection of dynamic fluids,2008-11,Kai Zhang, Libo Zhao, Shishang Guo, Baoxian Shi, Helen Lai Wa Chan, and Yu Wang