about
Tailoring light-matter coupling in semiconductor and hybrid-plasmonic nanowires.Asymmetric light propagation in composition-graded semiconductor nanowires.Direct imaging of the atomic structure inside a nanowire by scanning tunnelling microscopy.Optical modulation of ZnO microwire optical resonators with a parallelogram cross-section.Structure-activity relationship for the solid state emission of a new family of "push-pull"π-extended chromophores.Plasmon lasers at deep subwavelength scale.DFB laser action in a flexible fully plastic multilayer.Excitonic properties and near-infrared coherent random lasing in vertically aligned CdSe nanowires.ZnO nanowire lasers.Synthesis of Tapered CdS Nanobelts and CdSe Nanowires with Good Optical Property by Hydrogen-Assisted Thermal EvaporationCharacterization and Optical Properties of the Single Crystalline SnS Nanowire Arrays.Composition and bandgap-graded semiconductor alloy nanowires.Synthesis of ZnGa(2)O(4) Hierarchical Nanostructure by Au Catalysts Induced Thermal Evaporation.Controlled synthesis and visible light photocatalytic activity of Bi12GeO20 uniform microcrystals.Nanowire crossbar arrays as address decoders for integrated nanosystems.All-optical active switching in individual semiconductor nanowires.Graphene-contact electrically driven microdisk lasersWavelength tunable CdSe nanowire lasers based on the absorption-emission-absorption process.Shape-engineering of self-assembled organic single microcrystal as optical microresonator for laser applications.Synthesis and field emission studies of tower-like GaN nanowiresCleaved-coupled nanowire lasersSuper-resolution imaging of light-matter interactions near single semiconductor nanowiresResonant tunneling modulation in quasi-2D Cu(2)O/SnO(2) p-n horizontal-multi-layer heterostructure for room temperature H(2)S sensor application.One-dimensional CdS nanostructures: a promising candidate for optoelectronics.Coupled nanowire-based hybrid plasmonic nanocavities on thin substrates.Fluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics.Lasing from individual GaAs-AlGaAs core-shell nanowires up to room temperature.Light generation and harvesting in a van der Waals heterostructureEnhanced optical confinement and lasing characteristics of individual urchin-like ZnO microstructures prepared by oxidation of metallic Zn.Distributed feedback imprinted electrospun fiber lasers.In situ-Directed Growth of Organic Nanofibers and Nanoflakes: Electrical and Morphological Properties.Photoluminescence performance enhancement of ZnO/MgO heterostructured nanowires and their applications in ultraviolet laser diodes.Revealing Optical Properties of Reduced-Dimensionality Materials at Relevant Length Scales.Ultra-low reflectance, high absorption microcrystalline silicon nanostalagmite.Properties of nanobelts and nanotubes measured by in situ TEM.Observation of stimulated emission from a single Fe-doped AlN triangular fiber at room temperature.Surfactant-Free and Controlled Synthesis of Hexagonal CeVO4 Nanoplates: Photocatalytic Activity and Superhydrophobic PropertySimultaneous quasi-one-dimensional propagation and tuning of upconversion luminescence through waveguide effectBi-Assisted CdTe/CdS Hierarchical Nanostructure Growth for Photoconductive ApplicationsDynamics of Optically-Generated Carriers in Si (100) and Si (111) Substrate-Grown GaAs/AlGaAs Core-Shell Nanowires.
P2860
Q30384087-FD897247-43AE-4413-8428-4C6EDC207432Q30461005-12352622-2936-4431-B336-D0D60F5AC34BQ31088095-C5194A93-C164-4265-8DB0-570C68A4E77DQ31114877-4CFE19A4-DE70-4D15-A571-944E57C48452Q31145575-7E93413D-21EF-4402-A60E-859194BAB8F5Q33498353-07BBDCD3-5336-403E-BEF2-517D48BF3B59Q33519924-98B8D8B4-1373-400E-9E2E-CE496BBA6309Q33844983-D4335400-D04A-415B-86F2-111E2AA5AAD4Q33892717-7E16D146-07A2-4490-8A7E-DCBF5A25B44EQ33948776-3117B304-A828-4629-BFEB-D2E3C0D4EFF9Q33948994-79C5EE73-B6F8-43B3-AAE9-5FECF95131E3Q34079889-29A1CE53-6E50-46DC-A118-806463573622Q34080506-FF33D9D6-135E-442E-83AC-F549454A1B28Q34152204-A48824E0-48FE-4EA4-8C1C-04FDC89EB85DQ34278257-566B8106-C832-42BB-BEDA-87B3F53251CBQ34297124-91F15528-43BB-4B1A-879A-7728ADBA68BCQ34437291-43211AD7-55E6-420A-B9D6-05A6ECDEA806Q34470751-1CF9162A-5152-4848-9529-670621E2826FQ34493038-3753FA64-518F-4F7B-90CD-9C8815A011A4Q34508026-2D511C7E-001E-417C-8028-C63CAE2364DBQ34531102-3717C0D4-79A2-4732-B4FC-AF5743D8CC3AQ34547685-D7E39720-E4E6-479F-8EE6-3FE8341FADD4Q34587066-4AD391F0-5125-4D6F-8517-E246C959EF44Q34695108-3A89470F-C205-4BB6-BFA6-25BE483B216FQ34702750-3B95F977-D2CE-4D94-AF13-9DEA7E87DA94Q34977503-5B5B6000-E81A-4E05-9EA5-90FBF13936EBQ35058964-083231A0-446B-45E1-8B17-3E5F0CA8212DQ35112335-32C28FBB-4D8A-409D-B812-7B54B50A49BDQ35145991-DAA0E136-FCAC-4725-AD7D-B02A4972BFB6Q35209744-E52B1FD3-A6C6-477D-BE9A-C36ABDD28EC7Q35536477-958565DE-FEEF-48A5-B72A-A0DCC2247D9FQ35585240-D36E2BE7-05CE-4D99-88BA-E474A69AE4CCQ35762263-28251950-B909-4462-AE89-4943A4CA4922Q35847728-A9F0D35A-2098-4537-9006-701FB63354EDQ35860924-7C10FC82-62C4-4101-BA37-9FFA1FF8F292Q35863781-F7589979-748C-47D6-B922-86C17E1512D1Q35908411-02FBBCEB-2A46-4631-A346-9FD4CBA6D608Q35939607-6BE9C496-F704-433E-872F-FC1BA44C308DQ35963521-A1829A1B-DAC7-4FB2-B314-98C6D68F9978Q35985753-58A37982-3041-48EF-AEA8-C499015FF097
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Single-nanowire electrically driven lasers.
@ast
Single-nanowire electrically driven lasers.
@en
type
label
Single-nanowire electrically driven lasers.
@ast
Single-nanowire electrically driven lasers.
@en
prefLabel
Single-nanowire electrically driven lasers.
@ast
Single-nanowire electrically driven lasers.
@en
P2093
P356
P1433
P1476
Single-nanowire electrically driven lasers.
@en
P2093
Charles M Lieber
Ritesh Agarwal
P2888
P304
P356
10.1038/NATURE01353
P407
P577
2003-01-01T00:00:00Z
P6179
1024489920