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仿生微流控的发展与应用

闵伶俐 陈松月 盛智芝 王宏龙 吴锋 王苗 侯旭

引用本文:
Citation:

仿生微流控的发展与应用

闵伶俐, 陈松月, 盛智芝, 王宏龙, 吴锋, 王苗, 侯旭

Development and application of bio-inspired and biomimetic microfluidics

Min Ling-Li, Chen Song-yue, Sheng Zhi-Zhi, Wang Hong-Long, Wu Feng, Wang Miao, Hou Xu
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  • 仿生微流控技术将仿生结构设计应用到微流体装置中,具有很强的学科交叉性. 本文提出了通过仿生手段突破微流控的技术瓶颈,从而提高微流控器件的抗污染性能,告别单一功能的微流控系统应用的局限性,实现微尺度下通道的智能化及动态环境变化下的高适应性等. 本文提出了仿生微流控的概念,重点介绍了仿生微流控在器件抗污染、器件智能化、生物学和医药方面的最新研究进展,从仿生设计导入应用前景,并探讨了所涉及的物理问题和关键技术,以期为智能微流控芯片的设计开发和应用提供新思路,并为软物质的开发应用、多功能型智能化仿生器件的设计、制备及应用提供参考.
    Biomimetic microfluidic systemscan be obtained through multidisciplinary approaches by using bio-inspired structural and functional designsfor the microfluidic devices. This review mainly focuseson the concept of biomimetic microfluidics to improve the properties of microfluidic systemsfor breaking through the bottlenecks of the current microfluidic devices, such as antifoulingsmart, anddynamic response insidethe microchannelsunder different environments. In addition, herewe showthecurrentresearch progress ofbiomimetic microfluidic systems in applicationsrelatedtoantifoulingandsmartdevices, andbiomedicalresearch The review discusses both physical theories and critical technologies in thebiomimetic microfluidics, from biomimetic design to real-worldapplications, so as to offer new ideas for the design and application of smart microfluidics, and the authors hope this review will inspire the active interest of many scientists in the area of the development and application of soft matter, and multi-functional and smart biomimetic devices.
      通信作者: 侯旭, houx@xmu.edu.cn
    • 基金项目: 青年海外高层次人才引进计划第十二批千人计划青年项目、国家自然科学基金(批准号:21673197)、高等学校学科创新引智计划(批准号:B16029)和国家自然科学基金(批准号:U1505243)资助的课题.
      Corresponding author: Hou Xu, houx@xmu.edu.cn
    • Funds: Project supported by Young Overseas High-level Talents Introduction Plan, the National Natural Science Foundation of China (Grant No. 21673197), the 111 Project (Grant No. B16029) and the National Natural Science Foundation of China (Grant No. U1505243).
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出版历程
  • 收稿日期:  2016-05-20
  • 修回日期:  2016-07-02
  • 刊出日期:  2016-09-05

仿生微流控的发展与应用

  • 1. 厦门大学生物仿生及软物质研究院, 福建省柔性功能材料重点实验室, 厦门 361005;
  • 2. 厦门大学物理科学与技术学院, 厦门 361005;
  • 3. 厦门大学航空航天学院, 厦门 361005;
  • 4. 厦门大学化学化工学院, 厦门 361005;
  • 5. 能源材料化学协同创新中心, 厦门 361005
  • 通信作者: 侯旭, houx@xmu.edu.cn
    基金项目: 青年海外高层次人才引进计划第十二批千人计划青年项目、国家自然科学基金(批准号:21673197)、高等学校学科创新引智计划(批准号:B16029)和国家自然科学基金(批准号:U1505243)资助的课题.

摘要: 仿生微流控技术将仿生结构设计应用到微流体装置中,具有很强的学科交叉性. 本文提出了通过仿生手段突破微流控的技术瓶颈,从而提高微流控器件的抗污染性能,告别单一功能的微流控系统应用的局限性,实现微尺度下通道的智能化及动态环境变化下的高适应性等. 本文提出了仿生微流控的概念,重点介绍了仿生微流控在器件抗污染、器件智能化、生物学和医药方面的最新研究进展,从仿生设计导入应用前景,并探讨了所涉及的物理问题和关键技术,以期为智能微流控芯片的设计开发和应用提供新思路,并为软物质的开发应用、多功能型智能化仿生器件的设计、制备及应用提供参考.

English Abstract

参考文献 (128)

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