about
Coupling between molecular and plasmonic resonances in freestanding dye-gold nanorod hybrid nanostructures.Near infrared distributed feedback lasers based on LDS dye-doped zirconia-organically modified silicate channel waveguides.Enhancing single-nanoparticle surface-chemistry by plasmonic overheating in an optical trap.Growth of gold bipyramids with improved yield and their curvature-directed oxidation.Plasmon coupling in clusters composed of two-dimensionally ordered gold nanocubes.DNA origami-directed, discrete three-dimensional plasmonic tetrahedron nanoarchitectures with tailored optical chirality.DNA-directed gold nanodimers with tailored ensemble surface-enhanced Raman scattering properties.Tailoring Longitudinal Surface Plasmon Wavelengths, Scattering and Absorption Cross Sections of Gold NanorodsMultifunctional Mesostructured Silica Microspheres from an Ultrasonic Aerosol SpraypH-Controlled Reversible Assembly and Disassembly of Gold NanorodsFluorescent Mesostructured Polythiophene–Silica Composite Particles Synthesized by in Situ Polymerization of Structure-Directing MonomersNovel polymer-free iridescent lamellar hydrogel for two-dimensional confined growth of ultrathin gold membranesEvidence for Hydrogen-Bonding-Directed Assembly of Gold Nanorods in Aqueous SolutionChemical seeded growth of Ag nanoparticle arrays and their application as reproducible SERS substratesIdentification of the Optimal Spectral Region for Plasmonic and Nanoplasmonic SensingAntibonding Plasmon Modes in Colloidal Gold Nanorod ClustersHighly uniform SERS substrates formed by wrinkle-confined drying of gold colloidsEffects of dyes, gold nanocrystals, pH, and metal ions on plasmonic and molecular resonance couplingA general approach to the synthesis of gold-metal sulfide core-shell and heterostructuresObserving plasmonic-molecular resonance coupling on single gold nanorods
P50
Q33331769-20C94EAA-3B95-4D42-B271-D6DE6045A53BQ33459967-7743E73E-687A-4DC6-A20D-A341F40FFD48Q41823247-45030E54-625A-43EE-BE69-89F8FBB4E2E3Q46911286-ED1567CC-CBB1-4AE3-A697-E3990AF5E16EQ50605254-932BE160-3FF1-4075-B072-D4695AD92B38Q53578868-20FF85A9-5194-4CEA-B3F1-58BBB1F98313Q54779569-10DFF762-405F-4E33-B6AB-D35934B82D13Q57362865-E11680DC-9A56-4053-95AB-6D706DDACCB4Q57958947-044FA4D0-A124-4FE1-BB78-62B9F2A8A9C8Q57958951-581E0866-662B-447F-BA73-8D14C004CF88Q57958952-075873D2-25E4-446D-A182-D09B1BFBBDD3Q58195260-1B863AB7-6548-4906-AA23-B275FFBCB426Q60205801-2505C0A4-8A51-4671-BD80-D8D24EC64534Q60205807-D5A7E473-CA61-451A-91DF-BC6C2C5FE527Q60205819-BB4176BA-E10F-4A12-8731-162C235CD0A6Q60205843-C9F7CB43-4CE8-4B4E-B9F0-AA0A0DF0A85EQ60205992-ABA4BEE1-2C12-4B0F-BD57-DFA1792640F0Q83183464-F05729B9-DACE-4699-93C3-3DBA52590A2DQ83479909-B6EEFBCE-2F49-484B-ABB8-41142B0A08E1Q84975306-066C75F2-374E-4BD5-AF45-8F28AC23EC38
P50
description
researcher
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wetenschapper
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հետազոտող
@hy
name
Weihai Ni
@ast
Weihai Ni
@en
Weihai Ni
@es
Weihai Ni
@nl
Weihai Ni
@sl
type
label
Weihai Ni
@ast
Weihai Ni
@en
Weihai Ni
@es
Weihai Ni
@nl
Weihai Ni
@sl
prefLabel
Weihai Ni
@ast
Weihai Ni
@en
Weihai Ni
@es
Weihai Ni
@nl
Weihai Ni
@sl
P106
P1153
22981118500
P31
P496
0000-0003-3998-189X