about
Note: automatic laser-to-optical-fiber coupling system based on monitoring of Raman scattering signal.Wavelength tunable CdSe nanowire lasers based on the absorption-emission-absorption process.One-dimensional CdS nanostructures: a promising candidate for optoelectronics.In-plane trapping and manipulation of ZnO nanowires by a hybrid plasmonic field.Emission energy, exciton dynamics and lasing properties of buckled CdS nanoribbons.Low loss optical waveguiding in large single crystals of a thiophene-based oligomer.Synthesis and optical properties of II-VI 1D nanostructures.Plasmonics in nanostructures.Controlled synthesis of organic nanophotonic materials with specific structures and compositions.Spectral and spatial characterization of upconversion luminescent nanocrystals as nanowaveguides.Optical waveguides at micro/nanoscale based on functional small organic molecules.Heteroepitaxial Si/ZnO hierarchical nanostructures for future optoelectronic devices.Molecular cocrystals: design, charge-transfer and optoelectronic functionality.Wavelength Division Multiplexer Based on Semiconductor Heterostructures Constructed via Nanoarchitectonics.Cooperative Supramolecular Polymerization of Fluorescent Platinum Acetylides for Optical Waveguide Applications.Lanthanide Metal-Organic Framework Microrods: Colored Optical Waveguides and Chiral Polarized Emission.Tuning the Solid State Emission of the Carbazole and Cyano-Substituted Tetraphenylethylene by Co-Crystallization with Solvents.A facile template-free approach for the large-scale solid-phase synthesis of CdS nanostructures and their excellent photocatalytic performance.Highly solid-state emissive pyridinium-substituted tetraphenylethylene salts: emission color-tuning with counter anions and application for optical waveguides.Wavelength-tunable waveguides based on polycrystalline organic-inorganic perovskite microwires.High-performance ultraviolet photodetectors based on CdS/CdS:SnS2 superlattice nanowires.Optical waveguide based on a polarized polydiacetylene microtube.Effect of Sulfur Source on Cadmium Sulfide Nanostructures Morphologies via Simple Hydrothermal RouteSynthesis of high quality n-type CdS nanobelts and their applications in nanodevicesPolar-surface-driven growth of ZnS microsprings with novel optoelectronic propertiesOne dimensional ternary Cu–Bi–S based semiconductor nanowires: synthesis, optical and electrical propertiesSingle-Crystalline CdS Nanobelts for Excellent Field-Emitters and Ultrahigh Quantum-Efficiency PhotodetectorsA Review on the Synthesis Methods of CdSeS-Based Nanostructures
P2860
Q34424001-3A58584E-285E-4A03-9783-8366BB49E50EQ34470751-255B8BC2-02DF-4820-BBBE-53B29DE3FBEEQ34695108-75B9A559-4D1E-468F-A5E1-7388BB76BDB4Q36000006-D02735A1-32CC-4D60-A86C-C3DAFEE0E2ACQ36025676-A96ED9DF-214A-430B-A4FB-8AD57E9D86B9Q36395659-6243B542-3378-4185-9A62-7649FADCA273Q37972989-1C643409-2F43-4E9C-8F56-BBAF6AD003FEQ38118225-F5ED95AE-6C4C-4879-81E6-B60FCCF6E9F5Q38208282-61C9E41D-561D-4268-A1BE-F3330F9521C0Q38401568-0409FED6-4FA7-4B9E-8DB5-76EF32127C13Q39788255-AAFD3A70-E14B-4B87-8CFB-28B94BC48A7FQ39897159-65B97E31-B524-4799-8F2E-8CA8E0AE5058Q47251739-71DA686F-46D2-48A6-9070-8F00FB0D9DDCQ47419656-4E196564-9F69-4E71-B124-E67B53474732Q47805784-631E4F46-CD1D-4CCB-8BB4-707129A72143Q48061616-818EF827-2051-4AB6-9BCD-A206D2C75FF9Q50199831-21C7B2BF-4AC6-4C29-9C17-A39DDFB0F4E9Q50280264-B3C05ABA-D8FC-4B6B-BBEF-158C76B8ACFAQ50447208-021DD74A-8711-4D96-808D-62908E02DA79Q51669813-71581B30-20A5-45AA-8B6D-280049FE1611Q53060086-36E656C8-9ABA-4124-819F-EFA9694D97DBQ53618676-F287F02B-84B7-4E8E-A13F-827B20751AE7Q57349147-8BA3A3A4-3813-47BD-84C0-D05065BEAC26Q57550084-56161EB3-5BF3-42F2-8FB7-02D57C6F4DCCQ58202352-25C083A3-3E2A-42B1-B34D-41FECDC44534Q58202400-AAE58B99-7EC8-4301-BB53-3FB7E39D4AB7Q58202474-5B1B68E8-9B31-44A1-9A45-2ACBAC53AF33Q59113554-CF3D0632-9602-4062-BD1F-0C35D56555FC
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Optical waveguide through CdS nanoribbons.
@en
Optical waveguide through CdS nanoribbons.
@nl
type
label
Optical waveguide through CdS nanoribbons.
@en
Optical waveguide through CdS nanoribbons.
@nl
prefLabel
Optical waveguide through CdS nanoribbons.
@en
Optical waveguide through CdS nanoribbons.
@nl
P2093
P356
P1433
P1476
Optical waveguide through CdS nanoribbons.
@en
P2093
P304
P356
10.1002/SMLL.200500112
P577
2005-10-01T00:00:00Z