Catalytically highly active top gold atom on palladium nanocluster.
about
Mechanical gate control for atom-by-atom cluster assembly with scanning probe microscopy.Gold-palladium core@shell nanoalloys: experiments and simulationsTotal structure determination of surface doping [Ag46Au24(SR)32](BPh4)2 nanocluster and its structure-related catalytic property.Preparation and Catalytic Activity for Aerobic Glucose Oxidation of Crown Jewel Structured Pt/Au Bimetallic Nanoclusters.Stabilized gold clusters: from isolation toward controlled synthesis.High-resolution separation of thiolate-protected gold clusters by reversed-phase high-performance liquid chromatography.Multifunctional metal-organic framework catalysts: synergistic catalysis and tandem reactions.Protein-directed synthesis of pH-responsive red fluorescent copper nanoclusters and their applications in cellular imaging and catalysis.Advances in Gold Catalysis and Understanding the Catalytic Mechanism.Catalytic activity of bimetallic catalysts highly sensitive to the atomic composition and phase structure at the nanoscale.Seed-mediated growth of MOF-encapsulated Pd@Ag core-shell nanoparticles: toward advanced room temperature nanocatalystsFinely controlled multimetallic nanocluster catalysts for solvent-free aerobic oxidation of hydrocarbonsCO oxidation on h-BN supported Au atom.Gold clusters alloyed to nanoporous palladium surfaces as highly active bimetallic oxidation catalysts.Nanoparticle imaging. 3D structure of individual nanocrystals in solution by electron microscopy.Size-dependent melting and coalescence of tungsten nanoclusters via molecular dynamics simulation.Composition-dependent electrocatalytic activity of AuPd alloy nanoparticles prepared via simultaneous sputter deposition into an ionic liquid.Metal adatoms generated by the co-play of melamine assembly and subsequent CO adsorption.Bimetallic Effect of Single Nanocatalysts Visualized by Super-Resolution Catalysis Imaging.Probing the electronic and catalytic properties of a bimetallic surface with 3 nm resolution.Catalytically active designer crown-jewel Pd-based nanostructures encapsulated in metal-organic frameworks.How to determine accurate chemical ordering in several nanometer large bimetallic crystallites from electronic structure calculations.Controlled Synthesis of Carbon-Supported Gold Clusters for Rational Catalyst Design.Graphyne-supported single Fe atom catalysts for CO oxidation.A Green Synthesis of Nanosheet-Constructed Pd Particles in an Ionic Liquid and Their Superior Electrocatalytic Performance.Selective Hydrogenolysis of Glycerol to 1,3-Propanediol: Manipulating the Frustrated Lewis Pairs by Introducing Gold to Pt/WOx.DFT global optimisation of gas-phase and MgO-supported sub-nanometre AuPd clusters.Effective rate constant for nanostructured heterogeneous catalysts.Energy landscape exploration of sub-nanometre copper-silver clusters.Substrate co-doping modulates electronic metal-support interactions and significantly enhances single-atom catalysis.Direct atomic imaging and density functional theory study of the Au24Pd1 cluster catalyst.Faceting preferences for Au(N) and Pd(N) nanoclusters with high-symmetry motifs.Nanostructured copper/copper oxide hybrids: combined experimental and theoretical studies.DFT study of the structures and energetics of 98-atom AuPd clusters.Relative edge energy in the stability of transition metal nanoclusters of different motifs.Pt3 Co Octapods as Superior Catalysts of CO2 Hydrogenation.A dewetting route to grow heterostructured nanoparticles based on thin film heterojunctions.X-Ray crystal structure, and optical and electrochemical properties of the Au15Ag3(SC6H11)14 nanocluster with a core-shell structure.Heterogeneous nucleation and shape transformation of multicomponent metallic nanostructures.Playing with structures at the nanoscale: designing catalysts by manipulation of clusters and nanocrystals as building blocks.
P2860
Q35205424-63445067-980B-44AF-975D-78FFC808DD15Q36029840-45A99355-5257-43BA-8E84-F8E7E4A55D2CQ36277000-64CDC93D-D367-40B9-BDB6-F67350A3FC68Q37141134-24982044-31BF-4193-B986-663951A10530Q38020300-691A79EC-35D9-4C75-A78F-FCF644266BD0Q38967276-F274BB7B-E2D0-4EFD-BB63-F41A1721DD86Q39007600-E65A8C34-DDEC-4A66-A8DF-B7FC28EC8478Q39041975-30D82D38-D3FE-475B-80C9-068021BCF430Q40384970-5D6399B5-B234-42EE-BFBF-F0503BAFBA31Q40503804-45E5471A-1FF3-44A2-8D35-373BBE2806D7Q41045162-106A0D85-FD71-4E69-8BF2-CB60F60AA5C9Q41137987-4B4C8A55-274B-4F21-A7B9-C094DD982049Q45323255-0F826EA6-6F0A-48DC-9577-2E5A05415E8DQ46156071-366F4724-5CC5-454D-97AC-78410383A25AQ46205361-53C7B12C-5604-41E0-95F4-47F23A3AB60EQ46440212-D9B0E7D0-706E-441A-937A-D1F0321CC537Q46536988-3E0041D4-2733-4AF2-86CC-2F77E50F6CFEQ46611825-140EA891-E6AD-4526-B656-203E107D7DB8Q47141582-6F61D1AD-5207-44D3-8CC2-3665942F5527Q48052944-C55E161A-E48A-47C9-93C4-6F85EC96B80EQ48089411-C3C792F4-6129-4B35-A25F-8EF3823C5945Q48165256-4186933C-C09C-4062-A057-DC1AAC57ECF3Q48972876-744F7DE2-0F04-48A8-86B7-95BE0BD64AB8Q50049109-AB882987-F961-4117-810E-737BAA890596Q50242043-CA7744C5-74FA-451C-8C47-DDC95FD94BFDQ50272889-A715D638-A7AB-4A1F-A4CC-D48D3FB3FD73Q50575925-D139B252-1FAC-4E7F-91D5-1501A3EACBEEQ50783837-1E35D347-3DB1-4EF0-B21D-4A0A0CD2290FQ50946633-08C8F8AD-6F5B-4E2C-A568-008DE7B0FC44Q51110477-71FE7F53-8848-4E47-A517-8B3E28D78C59Q51201613-359CEAB1-F2B8-4FDD-BF91-C3430E436505Q51225054-C7EBD394-2744-4726-B8F2-881C7D9CF78EQ51245514-5C462003-5E1A-491A-8563-23B66E77509FQ51290240-E9C7F811-310F-4299-BB32-14113B5184DAQ51293595-CDAD6F2E-3C28-488A-9EB8-7AE5463EAE57Q51348973-CE78406E-5565-411F-8AF0-4EC5F8057B48Q51646139-93762AD4-4BB7-446D-BC9C-D102577FC19FQ51678351-4E654815-E343-4CA7-B59B-F6E5476271EEQ53399719-2CC2EFFD-8527-49C1-8EE0-97AD5D88DBB1Q53914836-C23D0F65-64AD-44A1-A284-71A1DD23B979
P2860
Catalytically highly active top gold atom on palladium nanocluster.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Catalytically highly active top gold atom on palladium nanocluster.
@en
Catalytically highly active top gold atom on palladium nanocluster.
@nl
type
label
Catalytically highly active top gold atom on palladium nanocluster.
@en
Catalytically highly active top gold atom on palladium nanocluster.
@nl
prefLabel
Catalytically highly active top gold atom on palladium nanocluster.
@en
Catalytically highly active top gold atom on palladium nanocluster.
@nl
P2093
P2860
P356
P1433
P1476
Catalytically highly active top gold atom on palladium nanocluster.
@en
P2093
Haijun Zhang
Masatake Haruta
Mitsutaka Okumura
Naoki Toshima
Tatsuya Watanabe
P2860
P2888
P356
10.1038/NMAT3143
P407
P577
2011-10-23T00:00:00Z