Functional hydrogel structures for autonomous flow control inside microfluidic channels
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Hu,Z., Zhang,X. & Li,Y. Synthesis and application of modulated polymer gels. Science 269, 525–527 (1995).
Tanaka,T., Nishio,I., Sun,S.-T. & Ueno-Nishio,S. Collapse of gels in an electric field. Science 218, 467–469 (1982).
Suzuki,A. & Tanaka,T. Phase transition in polymer gels induced by visible light. Nature 346, 345– 347 (1990).
Kataoka,K., Miyazaki,H., Bunya,M., Okano,T. & Sakurai,Y. Totally synthetic polymer gels responding to external glucose concentration: their preparation and application to on-off regulation of insulin release. J. Am. Chem. Soc. 120, 12694–12695 (1998).
Miyata,T., Asami,N. & Uragami,T. A reversibly antigen-responsive hydrogel. Nature 399, 766–769 ( 1999).
Schmidt-Nielsen,K. Animal Physiology (Cambridge Univ. Press, Cambridge, 1975).
Kovacs,G. T. A. Micromachined Transducers Sourcebook (WCB McGraw-Hill, Boston, 1998).
Smela,E., Inganäs,O. & Lundström,I. Controlled folding of micrometer-size structures. Science 268, 1735–1738 (1995).
Breen,T., Tien,J., Oliver,S. R. J., Hadzic,T. & Witesides, G. M. Design and self-assembly of open, regular, 3D mesostructures. Science 284, 948–951 (1999).
Jackman,R. J., Brittain,S. T., Adams,A., Prentiss,M. G. & Whitesides, G. M. Design and fabrication of topologically complex, three-dimensional microstructures. Science 280, 2089–2091 (1998).
Kenis,P. J., Ismagilov,R. F. & Whitesides, G. M. Microfabrication inside capillaries using multiphase laminar flow patterning. Science 285, 83 –85 (1999).
Cumpston,B. H. et al. Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication. Nature 398 , 51–54 (1999).