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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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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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  • 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.
      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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    [7]

    Becker H 2009 Lab Chip 9 2119

    [8]

    Mukhopadhyay R 2009 Analytical Chemistry 81 4169

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    Stratakis E, A Ranella, C Fotakis 2011 Biomicrofluidics 5 013411

    [10]

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    [11]

    Huang J, X Wang, Z L Wang 2006 Nano letters 6 2325

    [12]

    Wen L, J C Weaver, G V Lauder 2014 Journal of Experimental Biology 217 1656

    [13]

    Chen H, P Zhang, L Zhang, H Liu, Y Jiang, D Zhang, Z Han, L Jiang 2016 Nature 532 85

    [14]

    Otten A, Kter S, Struth B, Snigirev A, Pfohl T 2005 Journal of synchrotron radiation 12 745

    [15]

    Barber R W, D R Emerson 2010 Atla-Alternatives to Laboratory Animals 38 67

    [16]

    Hou X, Jiang L 2011 Physics 40 304 (in Chinese) [侯旭, 江雷 2011 物理 40 304]

    [17]

    Swaminathan S, T Harris, D McClellan, Y Cui 2013 Materials Letters 106 208

    [18]

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    [19]

    Punde T H, W H Wu, P C Lien, Y L Chang, P H Kuo, M D T Chang, K Y Lee, C D Huang, H P Kuo, Y F Chan, P C Shih, C H Liu 2015 Integrative Biology 7 162

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    Kim H J, D Huh, G Hamilton, D E Ingber 2012 Lab on a Chip 12 2165

    [21]

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    [22]

    Huang X, Y Zhu, X Zhang, Z Bao, D Y Lei, W Yu, J Dai, Y Wang 2016 Sensors and Actuators B-Chemical 222 106

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    Mukhopadhyay R 2005 Analytical Chemistry 77 429A

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    Akkas T, Citak C, Sirkecioglu A, Ger F S 2013 Polymer International 62 1202

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    Ren K, W Dai, J Zhou, J Su, H Wu 2011 PNAS 108 8162

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    [30]

    Bi H, W Zhong, S Meng, J Kong, P Yang, B Liu 2006 Analytical Chemistry 78 3399

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    Miwa M, A Nakajima, A Fujishima, K Hashimoto, T Watanabe 2000 Langmuir 16 5754

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    Frstner R, W Barthlott, C Neinhuis, P Walzel 2005 Langmuir 21 956

    [34]

    Song W, J F Mano 2013 Soft Matter 9 2985

    [35]

    Lima A C, J F Mano 2015 Nanomedicine 10 271

    [36]

    Oner D, T J McCarthy 2000 Langmuir 16 7777

    [37]

    Furstner R, W Barthlott, C Neinhuis, P Walzel 2005 Langmuir 21 956

    [38]

    Li X, D Reinhout, M Crego-Calama 2007 Chem. Soc. Rev. 36 1350

    [39]

    Chen F, D Zhang, Q Yang, J Yong, G Du, J Si, F Yun, X Hou 2013 ACS Applied Materials Interfaces 5 6777

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    Yeh P Y, Z Zhang, M Lin, X Cao 2012 Langmuir 28 16227

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    Dittrich P S, K Tachikawa, A Manz 2006 Analytical chemistry 78 3887

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  • Abstract views:  9738
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Publishing process
  • Received Date:  20 May 2016
  • Accepted Date:  02 July 2016
  • Published Online:  05 September 2016

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