![]() ![]() Tada Y, Sumaru K, Kameda M, Ohi K, Takagi T, Kanamori T, Yoshimi Y (2006) Development of a photoresponsive cell culture surfaces: regional enhancement of living cell adhesion induced by local light irradiation. ![]() Yamaguchi H, Kobayashi Y, Kobayashi R, Takashima Y, Hashidzume A, Harada A (2012) Photoswitchable gel assembly based on molecular recognition. Lab Chip 8:488Ĭaprioli L, Mele E, Angilè FE, Girardo S, Athanassiou A, Camposeo A, Cingolani R, Pisignano D (2007) Photocontrolled wettability changes in polymer microchannels doped with photochromic molecules. Hua Z, Pal R, Srivannavit O, Burns MA, Gulari E (2008) A light writable microfluidic flash memory: optically addressed actuator array with latched operation for microfluidic applications. Park J-M, Cho Y-K, Lee B-S, Lee J-G, Ko C (2007) Multifunctional microvalves control by optical illumination on nanoheaters and its application in centrifugal microfluidic devices. Hattori A, Moriguchi H, Ishiwata S, Yasuda K (2004) A 1480-nm/1064-nm dual wavelength photo-thermal eching sysem for non-contact three-dimensional microstructure generation into agar microculture chip. Adv Mater 17:1366Ĭhen G, Svec F, Knapp DR (2008) Light-actuated high pressure-resisting microvalve for on-chip flow control based on thermo-responsive nanostructured polymer. Sershen SR, Mensing GA, Ng M, Halas NJ, Beebe DJ, West JL (2005) Independent optical control of microfluidic valves formed from optomechanically responsive nanocomposite hydrogels. Sugiura S, Sumaru K, Ohi K, Hiroki K, Takagi T, Kanamori T (2007) Photoresponsive polymer gel microvalves controlled by local light irradiation. Moriguchi H, Wakamoto Y, Sugio Y, Takahashi K, Inoue I, Yasuda K (2002) An agar-microchamber cell-cultivation system: flexible change of microchamber shapes during cultivation by photo-thermal etching. Sugiura S, Szilagyi A, Sumaru K, Hattori K, Takagi T, Filipcsei G, Zrinyi M, Kanamori T (2009) On-demand microfluidic control by micropatterned light irradiation of a photoresponsive hydrogel sheet. Szilagyi A, Sumaru K, Sugiura S, Takagi T, Shinbo T, Zrinyi M, Kanamori T (2007) Rewritable microrelief formation on photoresponsive hydrogel layers. Satoh T, Sumaru K, Takagi T, Takai K, Kanamori T (2011) Isomerization of spirobenzopyrans bearing electron-donating and electron-withdrawing groups in acidic aqueous solutions. Satoh T, Sumaru K, Takagi T, Kanamori T (2011) Fast-reversible light-driven hydrogels consisting of spirobenzopyranfunctionalized poly(Nisopropylacrylamide). In: Dumitriu S, Popa V (eds) Polymeric biomaterials, 3rd edn. Sumaru K, Sugiura S, Takagi T, Kanamori T (2013) Photoresponsive polymers for control of cell bioassay systems. Sumaru K, Kameda M, Kanamori T, Shinbo T (2004) Reversible and efficient proton dissociation of siprobenzopyran-functionalized poly(N-isopropylacrylamide) in aqueous solution triggered by light irradiation and temporary temperature rise. Sumaru K, Takagi T, Satoh T, Kanamori T (2013) Photo-induced reversible proton dissociation of spirobenzopyran in aqueous systems. Sumaru K, Kameda M, Kanamori T, Shinbo T (2004) Characteristic phase transition of aqueous solution of poly(N-isopropylacrylamide) functionalized with spirobenzopyran. Suzuki A, Tanaka T (1990) Phase transition in polymer gels induced by visible light. Mamada A, Tanaka T, Kungwatchakun D, Irie M (1990) Photoinduced phase transition of gels. Reversible photostimulated dilation of polyacrylamide gels having triphenylmethane leuco derivatives. Irie M, Kunwatchakun D (1986) Photoresponsive polymers. Sumaru K, Ohi K, Takagi T, Kanamori T, Shinbo T (2006) Photo-responsive properties of poly(N-isopropylacrylamide) hydrogel partly modified with spirobenzopyran. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |