Nanoribbon waveguides for subwavelength photonics integration.
about
Zinc oxide nanomaterials for biomedical fluorescence detectionBiomedical detection via macro- and nano-sensors fabricated with metallic and semiconducting oxides.Hybrid integration of III-V semiconductor lasers on silicon waveguides using optofluidic microbubble manipulationAsymmetric light propagation in composition-graded semiconductor nanowires.Dynamics of mechanical waves in periodic grapheme nanoribbon assemblies.Polycrystalline nanowires of gadolinium-doped ceria via random alignment mediated by supercritical carbon dioxide.Molecular motor propelled filaments reveal light-guiding in nanowire arrays for enhanced biosensing.Flexible integration of free-standing nanowires into silicon photonicsOptical routing and sensing with nanowire assemblies.High-kappa oxide nanoribbons as gate dielectrics for high mobility top-gated graphene transistors.ZnO nanowire lasers.Uniaxially oriented peptide crystals for active optical waveguiding.Nanowire-based single-cell endoscopy.Low-threshold nanolasers based on slab-nanocrystals of H-aggregated organic semiconductors.Si-doped ceramic Al4O4C nanowires: full-color emission and optical waveguide behavior.Growth of randomly oriented single-crystalline tin (IV) oxide nanobelts: control on the predominant crystalline growth axis.One-dimensional CdS nanostructures: a promising candidate for optoelectronics.Single-mode lasing of nanowire self-coupled resonator.Integrated optical waveguide and photodetector arrays based on comb-like ZnO structures.Organic photonics: prospective nano/micro scale passive organic optical waveguides obtained from π-conjugated ligand molecules.Positioning and joining of organic single-crystalline wires.Combinatorial growth of Si nanoribbons.An Organic Microlaser Array Based on a Lateral Microcavity of a Single J-aggregation Microbelt.Organic printed photonics: From microring lasers to integrated circuits.Strongly enhanced ultraviolet emission of an Au@SiO2/ZnO plasmonic hybrid nanostructure.Intrinsic polarization control in rectangular GaN nanowire lasers.Simultaneous quasi-one-dimensional propagation and tuning of upconversion luminescence through waveguide effectEmission energy, exciton dynamics and lasing properties of buckled CdS nanoribbons.Gap controlled plasmon-dielectric coupling effects investigated with single nanoparticle-terminated atomic force microscope probes.Scattering attributes of one-dimensional semiconducting oxide nanomaterials individually probed for varying light-matter interaction angles.Scattering Intensity and Directionality Probed Along Individual Zinc Oxide Nanorods with Precisely Controlled Light Polarization and Nanorod Orientation.Low loss optical waveguiding in large single crystals of a thiophene-based oligomer.Ultratrace level determination and quantitative analysis of kidney injury biomarkers in patient samples attained by zinc oxide nanorods.Wavelength-converted wave-guiding in dye-doped polymer nanofibers.Fundamental Properties of One-Dimensional Zinc Oxide Nanomaterials and Implementations in Various Detection Modes of Enhanced Biosensing.Dynamic manipulation and separation of individual semiconducting and metallic nanowiresUnique temporal and spatial biomolecular emission profile on individual zinc oxide nanorods.Direct photonic-plasmonic coupling and routing in single nanowiresPosition- and orientation-controlled polarized light interaction of individual indium tin oxide nanorods.ZnS nanostructure arrays: a developing material star.
P2860
Q26865750-EBB46CA4-4BCB-47C2-BBD3-8CDF4EBFF332Q27008543-922D2E83-C12B-4EB0-9C65-A0B1D2D532DAQ27327042-DB830413-18E3-4D98-9508-BE3C51EEA3F6Q30461005-76BAE7D5-DDC3-4004-AE8F-9C2EF43F876EQ30473068-C60F1D8B-D6EC-42B1-8AB3-3158F5B9E886Q30538647-E57D2F1D-6902-48F8-ABF0-999838BE4011Q30571917-26E6AF4B-5ECF-439D-8277-97B7555EA4F0Q33799593-969A89C8-D430-4528-A9BA-9E5A4CA37098Q33841094-6991FDED-23F3-4DC6-B01F-3199B3EA4E91Q33859352-47F96CB3-0E94-4227-9B54-223021178FA8Q33892717-9E289324-7FD9-427E-A91C-9980088EE04AQ34034572-EC5A01A9-448C-4DCE-8D40-271902A4D80BQ34104745-A6FB43FD-DBDE-442B-B6ED-4E184AB43E37Q34341197-5F6BD093-9A36-4FA1-9BC8-4A12F7075AAFQ34424367-254C754B-E67F-40DF-AA0E-04E4C34197E5Q34628615-8FCDAB67-E85D-421F-85F5-B93AC7908BD5Q34695108-211FF696-B96A-47FA-9E27-14A2252561A7Q34772070-394BFB8A-4C79-4169-AA4C-54B9BFC8233BQ35019412-9835DB44-6EE9-40EF-B79E-ED0FDCA21186Q35119257-31E27F12-A704-4A92-8E60-F23B117D5A0EQ35311989-BD330A06-C131-4647-B5DC-4955791F1EC9Q35538257-10A7C30F-0BE0-4C2D-AC40-18FDF3438CE0Q35616696-BDC3ACC3-D84F-41CA-BDD4-68E21FCC0D0BQ35851160-63DE7EB8-6851-4179-B293-EA1458C0B1E4Q35906530-F7F66EE7-09B9-4847-9EB0-EA4181D6F633Q35929984-230D0CEF-8523-4F4E-BFF8-667702247773Q35939607-8E68C7B8-E9F6-41EE-8060-CB914F921671Q36025676-8D88F23D-8102-497E-8EFC-AC93704D3FDFQ36156038-DE87BBC9-3CF4-4492-BC44-3FB7CBE23A00Q36171557-93464A69-FD84-4428-9980-201533AD5EE5Q36276847-0D112EFD-4AE1-45BD-9473-7957B4552784Q36395659-EC5B7E5C-5242-4F21-BC8A-5122C63AAC4AQ36599204-4260A22D-40D9-4A53-8970-08C37F66E153Q36772381-F1EF0C9F-538E-40F8-B783-4D574D5DFF13Q36972404-774B4972-58FB-4413-A5D5-94D1CFA25A61Q37365133-20F74EC6-55B4-49B6-87BA-E6E3766B266AQ37418005-9A8D51B4-4D55-4FD5-B9F6-5252FB979D8CQ37482333-C9A89136-8A26-4EF2-88D5-8F87EAD64113Q37688569-B52BBF69-5ACA-4FD9-A6E5-5D775AD894A9Q37833008-468D1193-1B46-473A-B2FD-757FE53629B1
P2860
Nanoribbon waveguides for subwavelength photonics integration.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Nanoribbon waveguides for subwavelength photonics integration.
@en
Nanoribbon waveguides for subwavelength photonics integration.
@nl
type
label
Nanoribbon waveguides for subwavelength photonics integration.
@en
Nanoribbon waveguides for subwavelength photonics integration.
@nl
prefLabel
Nanoribbon waveguides for subwavelength photonics integration.
@en
Nanoribbon waveguides for subwavelength photonics integration.
@nl
P2093
P356
P1433
P1476
Nanoribbon waveguides for subwavelength photonics integration.
@en
P2093
Donald J Sirbuly
Josh Goldberger
Peidong Yang
Richard J Saykally
P304
P356
10.1126/SCIENCE.1100999
P407
P577
2004-08-01T00:00:00Z