Size-dependence of surface plasmon resonance and oxidation for Pd nanocubes synthesized via a seed etching process.
about
Visible and Near-Infrared Photothermal Catalyzed Hydrogenation of Gaseous CO2 over Nanostructured Pd@Nb2O5Recent progress in the structure control of Pd-Ru bimetallic nanomaterialsPlasmonic coupling with most of the transition metals: a new family of broad band and near infrared nanoantennas.Fabrication of silver nanoparticles dispersed in palm oil using laser ablation.Shape-controlled synthesis of metal nanocrystals: simple chemistry meets complex physics?Nanoengineering a library of metallic nanostructures using a single microfluidic reactor.In situ study of nucleation and aggregation phases for nanoparticles grown by laser-driven methods.Synthesis of size-controlled monodisperse Pd nanoparticles via a non-aqueous seed-mediated growthRecent Developments in Shape-Controlled Synthesis of Silver NanocrystalsGold nanocages: synthesis, properties, and applications.Preparing of Highly Conductive Patterns on Flexible Substrates by Screen Printing of Silver Nanoparticles with Different Size Distribution.Colloidal metal nanoparticles as a component of designed catalyst.Oxidative etching for controlled synthesis of metal nanocrystals: atomic addition and subtraction.Coupling Solar Energy into Reactions: Materials Design for Surface Plasmon-Mediated Catalysis.Palladium nanoparticles anchored to anatase TiO2 for enhanced surface plasmon resonance-stimulated, visible-light-driven photocatalytic activityPhotothermal Catalyst Engineering: Hydrogenation of Gaseous CO2 with High Activity and Tailored Selectivity.Morphological Evolution of Single-Crystal Ag Nanospheres during the Galvanic Replacement Reaction with HAuCl(4).Controlled synthesis of nanosized palladium icosahedra and their catalytic activity towards formic-acid oxidation.Morphology and structure controlled synthesis of ruthenium nanoparticles in oleylamine.Tunable oxygen activation for catalytic organic oxidation: Schottky junction versus plasmonic effects.Investigation of size-dependent plasmonic and catalytic properties of metallic nanocrystals enabled by size control with HCl oxidative etching.Discovery of Hexagonal Structured Pd-B Nanocrystals.Porous nanopeapod Pd catalyst with excellent stability and efficiency.Cubic superstructures composed of PtPd alloy nanocubes and their enhanced electrocatalysis for methanol oxidation.Redox reaction induced Ostwald ripening for size- and shape-focusing of palladium nanocrystals.Visible to near-infrared plasmon-enhanced catalytic activity of Pd hexagonal nanoplates for the Suzuki coupling reaction.Plasmon enhanced visible light photocatalysis for TiO2 supported Pd nanoparticles.Ultrasensitive biosensing platform based on the luminescence quenching ability of plasmonic palladium nanoparticles.Pt supraparticles with controllable DNA valences for programmed nanoassembly.pH-Dependent Galvanic Replacement of Supported and Colloidal Cu2O Nanocrystals with Gold and Palladium.Formation of palladium concave nanocrystals via auto-catalytic tip overgrowth by interplay of reduction kinetics, concentration gradient and surface diffusion.Engineering the surface charge states of nanostructures for enhanced catalytic performanceEfficient Coupling of Solar Energy to Catalytic Hydrogenation by Using Well-Designed Palladium NanostructuresPd–Ag alloy nanocages: integration of Ag plasmonic properties with Pd active sites for light-driven catalytic hydrogenationRecent progress in the synthesis of inorganic nanoparticlesReviewing the Tannic Acid Mediated Synthesis of Metal NanoparticlesSize-controlled synthesis of Pd nanosheets for tunable plasmonic propertiesControlled synthesis and properties of palladium nanoparticlesSynthesis of High-Yield Gold Nanoplates: Fast Growth Assistant with Binary SurfactantsSimulations of the Light Scattering Properties of Metal/Oxide Core/Shell Nanospheres
P2860
Q28596451-25B3C12F-2B4C-4F9C-B53D-A9B69A354082Q28821315-625D515D-B93F-4F18-8697-F4B2A01C1012Q30876196-F9928A99-7C85-4A1A-945C-BDCF39284606Q33768983-90B85080-8654-462C-B9A9-4A9FC01452CAQ34893638-32713389-D121-4513-8349-7CABF1F5BF6BQ36097379-4C245436-4EB9-45FB-A2F2-80ADB160C072Q36279637-9A7D68E0-A51A-4285-BE06-DAC468C11E24Q36292922-789A0E06-2BE3-4554-BFDA-5C03F74AB5D7Q36344653-06E7DBD0-5EFE-4CF7-AF29-AE7FBEE712F8Q37104981-4D9000B6-C843-46DD-9098-193C5754DD82Q37266121-BA5A6FF8-6B72-456D-9117-BEF232C5DCCFQ37829915-DCE42057-1F35-407B-827D-2FC597042797Q38217968-DC894A87-3B2D-460F-BFEA-537298843623Q38533933-714A5F99-7933-4991-A55C-877FD43C850EQ41850166-25BBA507-589D-40BC-AB39-9E980E88F100Q42379309-7E8BF88B-72E1-419D-B0C9-8C3A4F32CB64Q42447219-13EA4049-0111-4112-A5B5-2B82D2775CEBQ45247155-C67F2536-3399-4A62-A21D-B3CB8F3EEB99Q46476486-C510D0FF-39DC-4543-828D-E0234609B541Q46932913-8D3853C1-F08A-4787-9544-D56A78DDE462Q47320414-5D3330D7-3305-4CEE-92BD-C692C2967DB4Q48062278-7C59320C-C5EB-49B3-9FAE-E957E5A60308Q48142117-8FFB319D-71A6-4F4F-B69B-D44F29FAF4EDQ48292245-AB6BD489-8299-4C19-B11A-BF8A4C38858BQ49955940-B01FED0C-818D-4BE5-B486-B6E353A46321Q50262940-16C43413-1777-4545-832B-93346743BD5FQ50441100-FDB06215-A11A-455F-A249-06E6D788613DQ51008658-3A072982-D2F4-42D0-AC9F-296692A27E7EQ53107578-E7BC8B90-4273-459A-8558-85B2D346E78FQ53517458-7744A93B-943E-4D10-A6C7-10F1F569E3A3Q53620701-EE3BAD71-2E9D-4658-AD74-7FC1860B6A0AQ56993143-80580655-F20E-432A-AE3E-C35C1208E03EQ56993278-338213E2-C8FD-4BD7-BC20-47EFFF1344B7Q56993293-934589BC-118E-4173-A722-9EA346211D87Q57351193-1D3072B9-25F5-499C-BADC-8D98C39C6BE8Q57354074-D6C8E3D2-F54C-40D5-A267-0353E7A76330Q57882650-1FDDDCCC-98ED-432A-863D-C354F2CCB62EQ58121792-1EAA0A3D-3A5E-4EE7-8330-7618AB72900FQ58652301-D3A399A0-0C34-41EC-8D49-7F6A87C62519Q59059849-1A9A1CC7-879D-40DD-9BF8-3DB06369A1CB
P2860
Size-dependence of surface plasmon resonance and oxidation for Pd nanocubes synthesized via a seed etching process.
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
Size-dependence of surface pla ...... ed via a seed etching process.
@en
Size-dependence of surface pla ...... ed via a seed etching process.
@nl
type
label
Size-dependence of surface pla ...... ed via a seed etching process.
@en
Size-dependence of surface pla ...... ed via a seed etching process.
@nl
prefLabel
Size-dependence of surface pla ...... ed via a seed etching process.
@en
Size-dependence of surface pla ...... ed via a seed etching process.
@nl
P50
P356
P1433
P1476
Size-dependence of surface pla ...... ed via a seed etching process.
@en
P2093
Younan Xia
Zhi-Yuan Li
P304
P356
10.1021/NL0508826
P577
2005-07-01T00:00:00Z