謝曦[中山大學電子與信息工程學院教授]

謝曦[中山大學電子與信息工程學院教授]

謝曦,男,博士,中山大學電子與信息工程學院教授,博士生導師 。中山大學附屬第一醫院特聘教授; 中山大學眼科醫院特聘教授。

人物介紹

謝曦,廣東潮州人,美國史丹福大學材料科學與工程專業博士 ,中山大學電子與信息工程學院教授博導,中山大學附屬第一醫院特聘教授 ;中山大學眼科醫院特聘教授 。

謝曦教授2016年引進到中山大學電子與信息工程學院/光電材料與技術國家重點實驗室,聘為教授博導。謝曦教授一直圍繞開發新型微納器件,套用於解決生物醫學領域裡藥物釋放治療和生物檢測感測的難題, 近年來在微納生物器件、穿戴/植入式診療器件方面的工作發表了一系列研究成果在國際著名期刊,通訊/一作論文發表在 Nature Nanotechnology, Nature Biomedical Engineering, ACS Nano, Nano Letters,Advanced Functional Materials,ACS Central Science等國際著名期刊。

代表性科研成果

Physical activation of innate immunity by spiky particles.Nature Nanotechnology.2018, DOI: 10.1038/s41565-018-0274-0

Reduction of measurement noise in a continuous glucose monitor by coating the sensor with a zwitterionic polymer.Nature Biomedical Engineering.2018, DOI: 10.1038/s41551-018-0273-3.

Analgesic Microneedle Patch for Neuropathic Pain Therapy.ACS Nano.2017, 11 (1), pp395–406.

Microfluidic Fabrication of Colloidal Nanomaterials-Encapsulated Microcapsules for Biomolecular Sensing.Nano Letters.2017,17(3), pp 2015–2020.

Hierarchical Spiky Microstraws-integrated Microfluidic Device for Efficient Capture and in situ Manipulation of Cancer Cells.Advanced Functional Materials.2018, DOI: 10.1002/adfm.201806484.

Injectable Slippery Lubricant-coated Spiky Microparticles with Persistent and Exceptional Biofouling-resistance.ACS Central Science, 2018, DOI: 10.1021/acscentsci.8b00605.

Determining the Time Window for Dynamic Nanowires Cell Penetration Processes.ACS Nano.2015,9(12), pp 11667–11677.

Nanostraw–Electroporation System for Highly Efficient Intracellular Delivery and Transfection.ACS Nano,2013,7(5), pp 4351–4358.

Mechanical Model of Vertical Nanowire Cell Penetration.Nano Letters.2013,13, pp 6002–6008.

Reduced Graphene Oxide Nanohybrid-assembled Microneedles as Mini-invasive Electrodes for Real-time Transdermal Biosensing.Small,2019, DOI: 10.1002/smll.201804298.

1.

Nature Nanotechnolog

2.

Nature Biomedical Engineering

3.

ACS Nano

4.

Microfluidic Fabrication of Colloidal Nanomaterials-Encapsulated Microcapsules for Biomolecular Sensing.Nano Letters.2017,17(3), pp 2015–2020.

5.

Hierarchical Spiky Microstraws-integrated Microfluidic Device for Efficient Capture and in situ Manipulation of Cancer Cells.Advanced Functional Materials.2018, DOI: 10.1002/adfm.201806484.

6.

Injectable Slippery Lubricant-coated Spiky Microparticles with Persistent and Exceptional Biofouling-resistance.ACS Central Science, 2018, DOI: 10.1021/acscentsci.8b00605.

7.

Determining the Time Window for Dynamic Nanowires Cell Penetration Processes.ACS Nano.2015,9(12), pp 11667–11677.

8.

Nanostraw–Electroporation System for Highly Efficient Intracellular Delivery and Transfection.ACS Nano,2013,7(5), pp 4351–4358.

9.

Mechanical Model of Vertical Nanowire Cell Penetration.Nano Letters.2013,13, pp 6002–6008.

10.

Reduced Graphene Oxide Nanohybrid-assembled Microneedles as Mini-invasive Electrodes for Real-time Transdermal Biosensing.Small,2019, DOI: 10.1002/smll.201804298.

主要經歷

2005-2009年:中山大學, 高分子材料系 ;

2009-2014年:美國史丹福大學材料工程系,碩士博士 ;

2014-2016年:美國麻省理工學院,博士後,[導師:Robert Langer(三院院士)和Dan Anderson] 。

研究方向

(1)可穿戴設備以及生物相容性電子材料,重點在於研製生物相容性或者柔性的電子材料, 光學材料或醫學材料 ;

(2)微納材料與器件,重點在於開發和製備套用於生物醫學的微納材料、 生物材料、以及器件晶片或感測器 。

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