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dc.contributor.authorQin, Detaoen
dc.contributor.authorGibbons, Andrew H.en
dc.contributor.authorIto, Masateru M.en
dc.contributor.authorParimalam, Sangamithirai Subramanianen
dc.contributor.authorJiang, Handongen
dc.contributor.authorEnis Karahan, H.en
dc.contributor.authorGhalei, Behnamen
dc.contributor.authorYamaguchi, Daisukeen
dc.contributor.authorPandian, Ganesh N.en
dc.contributor.authorSivaniah, Easanen
dc.contributor.alternative伊藤, 真陽ja
dc.contributor.alternative山口, 大輔ja
dc.contributor.alternativeシバニア, イーサンja
dc.date.accessioned2022-05-23T00:02:06Z-
dc.date.available2022-05-23T00:02:06Z-
dc.date.issued2022-
dc.identifier.urihttp://hdl.handle.net/2433/270374-
dc.descriptionマイクロ流体デバイスの製造に革新をもたらす新手法. 京都大学プレスリリース. 2022-05-19.ja
dc.descriptionNew process revolutionizes microfluidic fabrication. 京都大学プレスリリース. 2022-05-19.en
dc.description.abstractAdvances in microfluidic technology towards flexibility, transparency, functionality, wearability, scale reduction or complexity enhancement are currently limited by choices in materials and assembly methods. Organized microfibrillation is a method for optically printing well-defined porosity into thin polymer films with ultrahigh resolution. Here we demonstrate this method to create self-enclosed microfluidic devices with a few simple steps, in a number of flexible and transparent formats. Structural colour, a property of organized microfibrillation, becomes an intrinsic feature of these microfluidic devices, enabling in-situ sensing capability. Since the system fluid dynamics are dependent on the internal pore size, capillary flow is shown to become characterized by structural colour, while independent of channel dimension, irrespective of whether devices are printed at the centimetre or micrometre scale. Moreover, the capability of generating and combining different internal porosities enables the OM microfluidics to be used for pore-size based applications, as demonstrated by separation of biomolecular mixtures.en
dc.language.isoeng-
dc.publisherSpringer Natureen
dc.rights© The Author(s) 2022en
dc.rightsThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.en
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/-
dc.subjectFluidicsen
dc.subjectPolymersen
dc.subjectSensors and biosensorsen
dc.titleStructural colour enhanced microfluidicsen
dc.typejournal article-
dc.type.niitypeJournal Article-
dc.identifier.jtitleNature Communicationsen
dc.identifier.volume13-
dc.relation.doi10.1038/s41467-022-29956-4-
dc.textversionpublisher-
dc.identifier.artnum2281-
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.addressInstitute for Integrated Cell-Material Sciences (iCeMS), Kyoto University of Advanced Study, Kyoto University; Department of Molecular Engineering, Kyoto Universityen
dc.identifier.pmid35589687-
dc.relation.urlhttps://www.icems.kyoto-u.ac.jp/news/7374/-
dc.relation.urlhttps://www.icems.kyoto-u.ac.jp/en/news/7375/-
dcterms.accessRightsopen access-
datacite.awardNumber20H00390-
datacite.awardNumber20K15342-
datacite.awardNumber19H03349-
datacite.awardNumber21H04705-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-20H00390/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-20K15342/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19H03349/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/ja/grant/KAKENHI-PROJECT-21H04705/-
dc.identifier.eissn2041-1723-
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.awardTitle構造の破壊過程の制御による材料機能化への新機軸ja
jpcoar.awardTitle周期的架橋高分子薄膜と溶媒の相互作用の制御ja
jpcoar.awardTitle心筋症関連ミトコンドリア・核内遺伝子の協奏的制御を可能にする人工転写因子の開発ja
jpcoar.awardTitle遺伝子ネットワークを制御する分子の開発と細胞への応用ja
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