about
Reconfigurable Liquid Whispering Gallery Mode MicrolasersOptics-Integrated Microfluidic Platforms for Biomolecular AnalysesWhispering-gallery nanocavity plasmon-enhanced Raman spectroscopy.Dynamic manipulation of particles via transformative optofluidic waveguides.Spaser as a biological probe.Optofluidic lasers with a single molecular layer of gainOptofluidic approaches for enhanced microsensor performances.Optofluidic laser for dual-mode sensitive biomolecular detection with a large dynamic range.In vitro and in vivo biolasing of fluorescent proteins suspended in liquid microdroplet cavities.Bio-optimized energy transfer in densely packed fluorescent protein enables near-maximal luminescence and solid-state lasers.Monolithic optofluidic ring resonator lasers created by femtosecond laser nanofabrication.Optofluidic laser array based on stable high-Q Fabry-Pérot microcavities.Intracellular microlasers.Optofluidic FRET lasers using aqueous quantum dots as donors.Optofluidic chlorophyll lasers.Integrative optofluidic microcavity with tubular channels and coupled waveguides via two-photon polymerization.Digital DNA detection based on a compact optofluidic laser with ultra-low sample consumption.Versatile tissue lasers based on high-Q Fabry-Pérot microcavities.Ultrafast nonlinear optical properties of thin-solid DNA film and their application as a saturable absorber in femtosecond mode-locked fiber laser.Electro-tunable liquid crystal laser based on high-Q Fabry-Pérot microcavity.Cellular dye lasers: lasing thresholds and sensing in a planar resonator.Optical Microresonators for Sensing and Transduction: A Materials Perspective.Logic digital fluidic in miniaturized functional devices: Perspective to the next generation of microfluidic lab-on-chips.Optofluidic tunable lenses using laser-induced thermal gradient.Solvent immersion imprint lithography: A high-performance, semi-automated procedure.Correlated electrical and optical analysis of single nanoparticles and biomolecules on a nanopore-gated optofluidic chip.Lasing with cell-endogenous fluorophores: parameters and conditionsOptofluidic bioanalysis: fundamentals and applications.Generation of photonic entanglement in green fluorescent proteins.Lasing in blood.Embedding liquid lasers within or around aqueous microfluidic droplets.An integrated microwell array platform for cell lasing analysis.Reproducible fiber optofluidic laser for disposable and array applications.A fully biocompatible single-mode distributed feedback laser.An in-fiber integrated optofluidic device based on an optical fiber with an inner core.Laser Particle Stimulated Emission Microscopy.Light in diagnosis, therapy and surgeryFiber Optic Excitation of Silicon Microspheres in Amorphous and Crystalline FluidsBiomaterial microlasers implantable in the cornea, skin, and blood
P2860
Q28829276-5A9C9C8F-18A0-403A-B54D-8C40D5989956Q30358042-02BB8AB0-9C6B-4895-A854-96A96E343DF0Q30667061-EA8AD7DF-20C0-478B-B1B4-FD0A04F86F87Q30668762-D58104F0-394B-4B50-89B0-E6D0967F26F8Q33802890-B061DD0D-7339-4D02-94B7-324B6E84286DQ34498617-25FC4BEE-A793-4E52-8723-0A6A1EFE7951Q35080871-16308C0D-9866-45F7-A34A-7BC4201CD580Q35159640-61937A8C-6866-4599-A8B6-8E5DB32A7B45Q35195846-B29A842F-7F41-43F4-8374-2732A9DA0CE0Q35267361-C99BF310-BBBD-4055-A8D7-42A1A7EE019CQ35577871-81072409-7BE3-4202-8C26-293C56C2F603Q35754344-4D9B5971-6AF8-49FC-81FC-F3198BA1FED1Q35791270-DDC6499E-4D5F-4CF5-8EB7-599A00CDD7E5Q35867227-F784DBEB-C04C-4B0B-B317-469255630DBAQ36028447-72B8406E-2A04-4E05-8084-8DD40A7553CEQ36165691-3C25622E-2148-41C2-B231-BE7F26020AF8Q36199102-DD853B0C-2B0C-4DE0-8590-B6EBA66E27C6Q36252336-B7864DD0-FCFC-476C-BDC8-A190A4D59BF1Q36262223-4B389E27-ADD7-4630-934A-A7176AB26E45Q36269282-73812005-AD77-4707-B1E3-38687AACB485Q36284176-6AFFC22F-3215-46A0-B83B-FAAD25F66E83Q38669545-68C65034-D662-400B-A52A-78D15EF7C1D0Q39036552-3743E879-8769-4F7E-9B50-779B301B38BEQ40302242-81B81089-4C2A-4041-9625-EB28C9761AE8Q41893215-BFE0AE07-5613-49E8-9769-4FD376719F1AQ42207320-0CF9B076-6D0A-4B93-B48A-37FA99230082Q42670693-8D049DB8-E771-490B-A8DB-228980966E52Q47099959-B903324C-2B5D-498C-A7EC-2518A5580AEEQ47142551-23DB7656-3C01-4466-8E7D-9BF414C9054DQ47193895-5DA8E09B-57C0-4715-A67A-4571399AE03BQ47304508-538C2630-4843-4E8E-918C-BBB2F8E13F14Q47916576-59EEC0F0-B703-4E6D-B3CB-13B35385FEF8Q50218291-D6CDE5AB-54B0-4BE0-BADF-CD3F921FA065Q51504297-3F0518BA-5C69-48B1-950B-C1609E377BABQ51516444-1B8393D2-4587-4775-81EC-5587B74F2FA6Q54869158-A6B5BCD2-F4F5-4114-9884-BB3A819883B1Q56689764-376E8E9F-40C4-4D8A-812C-80E48FBE70ACQ57909266-CF5F7B26-52EF-4E70-A46C-5BF2D3DAF35DQ58586025-37A22269-A88F-4C9D-BF45-BFC6804E85DC
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
name
The potential of optofluidic biolasers
@ast
The potential of optofluidic biolasers
@en
The potential of optofluidic biolasers
@nl
type
label
The potential of optofluidic biolasers
@ast
The potential of optofluidic biolasers
@en
The potential of optofluidic biolasers
@nl
prefLabel
The potential of optofluidic biolasers
@ast
The potential of optofluidic biolasers
@en
The potential of optofluidic biolasers
@nl
P2860
P356
P1433
P1476
The potential of optofluidic biolasers
@en
P2093
Seok-Hyun Yun
Xudong Fan
P2860
P2888
P304
P356
10.1038/NMETH.2805
P577
2014-02-01T00:00:00Z
P6179
1030893980