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dc.contributor.editorYubero, Francisco
dc.contributor.editorLahoz, Fernando
dc.date.accessioned2021-05-01T15:49:41Z
dc.date.available2021-05-01T15:49:41Z
dc.date.issued2020
dc.identifierONIX_20210501_9783039437177_1186
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/69440
dc.description.abstractOptofluidic devices are of high scientific and industrial interest in chemistry, biology, material science, pharmacy, and medicine. In recent years, they have experienced strong development because of impressive achievements in the synergistic combination of photonics and micro/nanofluidics. Sensing and/or lasing platforms showing unprecedented sensitivities in extremely small analyte volumes, and allowing real-time analysis within a lab-on-a-chip approach, have been developed. They are based on the interaction of fluids with evanescent waves induced at the surface of metallic or photonic structures, on the implementation of microcavities to induce optical resonances in the fluid medium, or on other interactions of the microfluidic systems with light. In this context, a large variety of optofluidic devices has emerged, covering topics such as cell manipulation, microfabrication, water purification, energy production, catalytic reactions, microparticle sorting, micro-imaging, or bio-sensing. Moreover, the integration of these optofluidic devices in larger electro-optic platforms represents a highly valuable improvement towards advanced applications, such as those based on surface plasmon resonances that are already on the market. In this Special Issue, we invited the scientific community working in this rapidly evolving field to publish recent research and/or review papers on these optofluidic devices and their applications.
dc.languageEnglish
dc.subject.classificationbic Book Industry Communication::T Technology, engineering, agriculture::TB Technology: general issues::TBX History of engineering & technology
dc.subject.otheropto-fluidics
dc.subject.othermicro-manipulation
dc.subject.othercells
dc.subject.othermicroparticles
dc.subject.otherelectrowetting display
dc.subject.otheraperture ratio
dc.subject.otherdriving waveform
dc.subject.otherhysteresis characteristic
dc.subject.otherink distribution
dc.subject.otherresponse speed
dc.subject.otheroptofluidics
dc.subject.otherocean monitoring
dc.subject.othercolorimetric method
dc.subject.otheroptoelectrokinetics
dc.subject.otheroptically-induced dielectrophoresis
dc.subject.othermicro/nanomaterials
dc.subject.otherseparation
dc.subject.otherfabrication
dc.subject.otherelectro-fluidic display
dc.subject.otherorganic dye
dc.subject.othercolored oil
dc.subject.otherphoto-stability
dc.subject.othermicro-thermometry
dc.subject.otherlaser induced fluorescence
dc.subject.otherdroplet microfluidics
dc.subject.otherzinc oxide
dc.subject.otherrhodamine B
dc.subject.otherrhodamine 6G
dc.subject.otherphotocatalysis
dc.subject.othermicroreactor
dc.subject.otherphotocatalytic water purification
dc.subject.otherpaper
dc.subject.other3D hydrodynamic focusing
dc.subject.otheroptofluidic
dc.subject.otherlab-on-a-chip
dc.subject.otherbiosensor
dc.subject.othermicroscale channel
dc.subject.othermicrofluidic
dc.subject.otherliquid-core waveguide
dc.subject.othersingle layer
dc.subject.otherreservoir effect
dc.subject.othersensor
dc.subject.othersurface plasmon resonance
dc.subject.othernanohole array
dc.subject.othermechanical properties
dc.subject.othernanofluidic
dc.subject.othernanoplasmonic
dc.subject.otherdissolved oxygen
dc.subject.othersilver nanoprisms
dc.subject.othercolorimetry
dc.subject.othern/a
dc.titleOptofluidic Devices and Applications
dc.typebook
oapen.identifier.doi10.3390/books978-3-03943-718-4
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783039437177
oapen.relation.isbn9783039437184
oapen.pages148
oapen.place.publicationBasel, Switzerland


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