Narrowband photodetection in the near-infrared with a plasmon-induced hot electron device.
about
Theoretical predictions for hot-carrier generation from surface plasmon decay.Image-guided drug delivery to the brain using nanotechnology.Broadband Absorption and Efficient Hot-Carrier Photovoltaic Conversion based on Sunlight-induced Non-radiative Decay of Propagating Surface Plasmon Polaritons.Random sized plasmonic nanoantennas on Silicon for low-cost broad-band near-infrared photodetection.Hot plasmonic electrons for generation of enhanced photocurrent in gold-TiO2 nanocompositesAtomically resolved real-space imaging of hot electron dynamics.Distinguishing between plasmon-induced and photoexcited carriers in a device geometryStrong and highly asymmetrical optical absorption in conformal metal-semiconductor-metal grating system for plasmonic hot-electron photodetection applicationCircularly polarized light detection with hot electrons in chiral plasmonic metamaterialsManipulation of charge transfer and transport in plasmonic-ferroelectric hybrids for photoelectrochemical applicationsMirror-backed Dark Alumina: A Nearly Perfect Absorber for Thermoelectronics and Thermophotovotaics.Hot electron induced NIR detection in CdS filmsNarrow band perfect absorber for maximum localized magnetic and electric field enhancement and sensing applications.Electrically Tunable Absorption Enhancement with Spectral and Polarization Selectivity through Graphene Plasmonic Light Trapping.Impact of optical antennas on active optoelectronic devices.Colloidal Synthesis and Applications of Plasmonic Metal Nanoparticles.A centimeter-scale sub-10 nm gap plasmonic nanorod array film as a versatile platform for enhancing light-matter interactions.Strong enhancement of photoresponsivity with shrinking the electrodes spacing in few layer GaSe photodetectors.Remarkably enhanced red-NIR broad spectral absorption via gold nanoparticles: applications for organic photosensitive diodes.High-bit rate ultra-compact light routing with mode-selective on-chip nanoantennas.Multifunctional Au-ZnO plasmonic nanostructures for enhanced UV photodetector and room temperature NO sensing devices.Nanoimprinted Hybrid Metal-Semiconductor Plasmonic Multilayers with Controlled Surface Nano Architecture for Applications in NIR Detectors.Interplay of hot electrons from localized and propagating plasmons.On-Chip Integrated, Silicon-Graphene Plasmonic Schottky Photodetector with High Responsivity and Avalanche Photogain.Perovskite photodetectors with both visible-infrared dual-mode response and super-narrowband characteristics towards photo-communication encryption application.Plasmon resonance energy transfer and plexcitonic solar cell.Compact Surface Plasmon Resonance System with Au/Si Schottky Barrier.Optical Properties and Plasmonic Performance of Titanium Nitride.Perovskite-Erbium Silicate Nanosheet Hybrid Waveguide Photodetectors at the Near-Infrared Telecommunication Band.Planar microcavity-integrated hot-electron photodetector.A large-scale lithography-free metasurface with spectrally tunable super absorption.Silicon-based broadband antenna for high responsivity and polarization-insensitive photodetection at telecommunication wavelengths.Quantitative Detection of Photothermal and Photoelectrocatalytic Effects Induced by SPR from Au@Pt Nanoparticles.Towards photodetection with high efficiency and tunable spectral selectivity: graphene plasmonics for light trapping and absorption engineering.Molecular interfaces for plasmonic hot electron photovoltaics.Plasmon-Induced Sub-Bandgap Photodetection with Organic Schottky DiodesPlasmon resonance enhanced colloidal HgSe quantum dot filterless narrowband photodetectors for mid-wave infraredNarrowband spectrally selective near-infrared photodetector based on up-conversion nanoparticles used in a 2D hybrid devicePlasmonic hot carrier dynamics in solid-state and chemical systems for energy conversionAll-dielectric phase-change reconfigurable metasurface
P2860
Q30421009-7C1EFB12-CEB6-4182-B535-3D67DEC021BEQ30426990-3BFAA0E0-D1EB-47E3-8136-9B517BEBB9B6Q33881576-0740D09F-851B-41A3-A1BE-8FD341604EB3Q34539207-E0066C91-EA8F-4492-94FF-3898DCDB70D0Q35265604-D8A875EE-4D39-4398-AC88-B65D8B4DFF0BQ35781467-45FB3A9D-034B-466A-B46C-3299D21456F7Q35878376-C7C6CEAB-C7C5-42EB-9AFF-101B325E66D0Q36099190-16B8DD35-7CE3-4A4B-85CA-BE1D2A5F2AFDQ36128848-643296F7-7845-471E-A078-38FC53638BC2Q36511408-1894CC63-E7D1-4CA5-8F37-FCA9DA7A4030Q36512159-A8716503-FCAA-4318-B357-28E0D4334EADQ36674982-50F4010F-9B41-4BFF-A6D2-3C76DAE4F48FQ36764914-D8908C0E-7D9D-4936-AF6C-882C4DC197DBQ37577640-3EF7E200-DDE3-49AA-9800-4E3C23C5C2C0Q38241409-E569C64B-4565-4201-9A71-ACE16601A788Q38822066-0FA7ADAC-BAE2-443C-ACA7-4C3F6C256041Q38967855-3871C841-AD56-4978-81CD-C5017D56DEC0Q39046190-DC99E87C-0BDE-4AF6-8FE4-CD010D91CD04Q40648058-285EAD8A-5637-48C6-94A6-F402C929DFB8Q41059553-A52C2149-9744-4084-814F-492B470D5F32Q41882811-E8AA8296-2316-45DA-AA7B-4FA802B88B38Q42031630-2FFBE3EF-5DA1-4B43-9171-E14D5838E695Q42162830-ED79713E-712C-45B2-AACB-C17EB95E3EB4Q42564535-EB1395FB-BC82-4E3D-B6E9-6EE826692C13Q47273728-02EBC7F3-194D-4A9D-BE24-6D98A6D4AAB3Q49143130-81CD6886-7E3A-4041-AAFB-9359F7D2AC0DQ49550394-92D71CB6-EE2C-420E-8D9B-0FA39819B31CQ50196192-6ECD4D77-7FCD-4ED1-B80A-7725B525E95EQ50754768-CCCD784E-9048-4296-AD0B-F95E8EE19651Q51351763-E56179E9-388F-4F25-AF22-BF7F1C9627DDQ51517647-6813B8BC-D09D-4878-A9C3-0D7022B830CCQ51521826-FC3CF727-7903-48FD-9365-DCA2C93EEB87Q51807188-3F2EA5DA-CE31-4E7C-9E81-D6D94B641604Q51837976-6FFE3FDB-7D26-47FC-88A8-2AFC380FFE9FQ53241219-B8CD6485-B9DC-4941-9AE7-0796855E97E0Q57563110-2F4A76B2-EAFF-4C9C-B0BE-47CC6A3C151CQ57732642-BD76B67F-F1DB-475A-AC46-61E0804852B1Q58202242-20215E81-7085-41A3-8134-AB4482A23FFEQ58815138-099BB803-088E-4646-BF0E-2FFC9604D4B7Q59151870-A74B4FA6-8FE0-4F17-B979-DCA6B7B857C8
P2860
Narrowband photodetection in the near-infrared with a plasmon-induced hot electron device.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh-hant
name
Narrowband photodetection in t ...... n-induced hot electron device.
@en
Narrowband photodetection in t ...... n-induced hot electron device.
@nl
type
label
Narrowband photodetection in t ...... n-induced hot electron device.
@en
Narrowband photodetection in t ...... n-induced hot electron device.
@nl
prefLabel
Narrowband photodetection in t ...... n-induced hot electron device.
@en
Narrowband photodetection in t ...... n-induced hot electron device.
@nl
P2093
P2860
P356
P1476
Narrowband photodetection in t ...... n-induced hot electron device.
@en
P2093
Ali Sobhani
Lisa V Brown
Naomi J Halas
Nicholas S King
Peter Nordlander
Yumin Wang
P2860
P2888
P356
10.1038/NCOMMS2642
P407
P577
2013-01-01T00:00:00Z