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180409t20182018nju ob 001 0 eng |
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|a 2018017086
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|a 9781119214618
|q electronic book
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|a 1119214610
|q electronic book
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|q hardcover
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|a NhCcYBP
|c NhCcYBP
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|a pcc
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4 |
|a QD505
|b .B56 2018
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| 072 |
|
7 |
|a SCI
|x 013050
|2 bisacsh
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| 082 |
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|a 541/.395
|2 23
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| 245 |
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|a Bimetallic nanostructures :
|b shape-controlled synthesis for catalysis, plasmonics, and sensing applications /
|c edited by Ya-Wen Zhang.
|
| 264 |
|
1 |
|a Hoboken, NJ :
|b John Wiley & Sons, Inc.,
|c 2018.
|
| 264 |
|
4 |
|c ©2018
|
| 300 |
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|a 1 online resource.
|
| 336 |
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|a text
|b txt
|2 rdacontent
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| 337 |
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|a computer
|b c
|2 rdamedia
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| 338 |
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|a online resource
|b cr
|2 rdacarrier
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| 504 |
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|a Includes bibliographical references and index.
|
| 505 |
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|a Machine generated contents note:
|g 1.
|t Introduction of Bimetallic Nanostructures --
|g 1.1.
|t Metallic Nanoparticles /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.2.
|t Bimetallic Nanoparticles /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.2.1.
|t Electronic Effect /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.2.2.
|t Lattice Stress /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.2.3.
|t Bifunctional Effect /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.2.4.
|t Ensemble Effect /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.3.
|t Bimetallic Nanostructures /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.3.1.
|t Alloyed Structure /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.3.2.
|t Core-Shell /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.3.3.
|t Heterostructure /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.3.4.
|t Factors Affecting the Mixing Patterns /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.4.
|t Bimetallic Nanostructure-Dependent Performance /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.4.1.
|t Elemental Composition and Distribution-Property Correlation /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.4.2.
|t Size-Property Correlation /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.4.3.
|t Geometric Structure-Property Correlation /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.4.4.
|t Phase Structure-Property Correlation /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.5.
|t Controlled Synthesis /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.6.
|t Outline of This Book /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 1.7.
|t References /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 2.
|t Theoretical Models for Bimetallic Surfaces and Nanoalloys /
|r Ya-Wen Zhang /
|r Zhi-Ping Zhang --
|g 2.1.
|t Introduction /
|r Hong Jiang --
|g 2.2.
|t Theoretical Approaches to Inter-Atomic Interactions /
|r Hong Jiang --
|g 2.2.1.
|t First-Principles Approaches /
|r Hong Jiang --
|g 2.2.2.
|t Empirical Inter-Atomic Potentials for Metallic Systems /
|r Hong Jiang --
|g 2.2.3.
|t Lattice Models /
|r Hong Jiang --
|g 2.3.
|t Global Optimization Methods /
|r Hong Jiang --
|g 2.3.1.
|t Basin-Hopping Algorithm /
|r Hong Jiang --
|g 2.3.2.
|t Genetic Algorithm /
|r Hong Jiang --
|g 2.4.
|t Statistical Approaches /
|r Hong Jiang --
|g 2.4.1.
|t Molecular Dynamics Simulation /
|r Hong Jiang --
|g 2.4.2.
|t Monte Carlo Simulation /
|r Hong Jiang --
|g 2.4.3.
|t Superposition Approach to Thermodynamic Properties of Nanoparticles /
|r Hong Jiang --
|g 2.5.
|t Electronic Properties and Catalytic Activity of Bimetallic Systems /
|r Hong Jiang --
|g 2.5.1.
|t d-Band Model for Chemical Adsorption at Transition Metal Surfaces /
|r Hong Jiang --
|g 2.5.2.
|t Tuning the Reactivity of Bimetallic Surfaces: Strain, Ligand, and Ensemble Effects /
|r Hong Jiang --
|g 2.5.2.1.
|t Strain Effect /
|r Hong Jiang --
|g 2.5.2.2.
|t Ligand Effect /
|r Hong Jiang --
|g 2.5.2.3.
|t Ensemble Effect /
|r Hong Jiang --
|g 2.6.
|t Computational Design of Bimetallic Heterogeneous Catalysts /
|r Hong Jiang --
|g 2.6.1.
|t Transition State and Adsorption Energy-Scaling Relations /
|r Hong Jiang --
|g 2.6.2.
|t Sabatier Principle and the Volcano Plot /
|r Hong Jiang --
|g 2.6.3.
|t High-Throughput Screening of Bimetallic Catalysts /
|r Hong Jiang --
|g 2.7.
|t Concluding Remarks /
|r Hong Jiang --
|g 2.8.
|t Acknowledgments /
|r Hong Jiang --
|g 2.9.
|t References /
|r Hong Jiang --
|g 3.
|t In situ Characterization Techniques of Bimetallics /
|r Hong Jiang --
|g 3.1.
|t Introduction /
|r Rui Si --
|g 3.2.
|t Electron Microscopy /
|r Rui Si --
|g 3.3.
|t Infrared Spectroscopy /
|r Rui Si --
|g 3.4.
|t X-Ray Absorption Fine Structure /
|r Rui Si --
|g 3.5.
|t Conclusions and Outlook /
|r Rui Si --
|g 3.6.
|t References /
|r Rui Si --
|g 4.
|t Bimetallic Nanopolyhedrons and Nanospheres /
|r Rui Si --
|g 4.1.
|t Introduction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.2.
|t Architecture of Bimetallic Nanospheres and Nanopolyhedrons /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.2.1.
|t Solid Solution /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.2.2.
|t Intermetallic Compounds /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.2.3.
|t Core-Shell Nanocrystals /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.3.
|t General Principles of Shape Evolution /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.3.1.
|t Equilibrium Shape: Wulff Polyhedron /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.3.2.
|t Nucleation Mechanism of Metal Nanocrystals /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.3.3.
|t Growth of Metal Nanocrystals /
|r Lin-Xiu Dai /
|r Ya-Wen Zhang --
|g 4.4.
|t Key Factors for Shape Evolution in Colloidal Synthesis /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.4.1.
|t Redox Potentials /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.4.2.
|t Reduction Rate /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.4.3.
|t Lattice Mismatch /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.4.4.
|t Facet-Specific Capping Agents /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.
|t Synthetic Approaches to Bimetallic Nanospheres and Nanopolyhedrons /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.1.
|t Continuous Growth /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.1.1.
|t Coreduction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.1.2.
|t Thermal Decomposition /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.1.3.
|t Combination of Thermal Decomposition and Reduction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.2.
|t Seed-Mediated Growth /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.5.3.
|t Combination of Underpotential Deposition and Galvanic Replacement Reaction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.6.
|t Catalytic Properties of Bimetallic Nanospheres and Nanopolyhedrons /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.6.1.
|t Effects of Adsorption Energy and Facet Type in Bimetallics /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.6.2.
|t Shape-Dependent Catalytic Reactions /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.6.2.1.
|t Pt-Ni Nanocrystals for Oxygen Reduction Reaction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.6.2.2.
|t Pt-Pd Nanocrystals for Methanol Electrooxidation /
|r Lin-Xiu Dai /
|r Ya-Wen Zhang --
|g 4.6.2.3.
|t Au-Pd Nanocrystals for Suzuki Coupling Reaction /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.7.
|t Conclusions and Outlook /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 4.8.
|t References /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 5.
|t Bimetallic Convex and Concave Nanostructures /
|r Ya-Wen Zhang /
|r Lin-Xiu Dai --
|g 5.1.
|t Introduction /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.
|t Synthetic Methods /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.1.
|t Synthesis of Bimetallic Concave Structures /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.1.1.
|t Galvanic Replacement /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.1.2.
|t Coreduction with a Control of Capping Ligand(s) /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.1.3.
|t Selective Etching (or Site-Specific Etching) /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.1.4.
|t Seed-Mediated Growth /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.2.2.
|t Synthesis of Bimetallic Convex Structure /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.3.
|t Structural Characterization /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.3.1.
|t Crystal Facets /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.3.2.
|t Case Studies /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.3.2.1.
|t (hk0} Facets /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Jiye Fang /
|r Zewei Quan /
|r Xiaokun Fan --
|g 5.3.2.2.
|t {hkl} Facets /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.
|t Selected Properties /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.1.
|t SERS Characteristics /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.1.1.
|t Case of Ag Convex NCs /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.1.2.
|t Case of Ag Concave NCs /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.1.3.
|t Cases of Bimetallic Noble Metals /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.2.
|t Electrocatalytic Performance /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.2.1.
|t Cases of Pt-Cu Nanostructures /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.2.2.
|t Cases of Pt-Pd Concave NCs and Others /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.3.
|t Chemically Catalytic Behaviors /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.3.1.
|t Cases of Hydrogenation /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.3.2.
|t Cases of 4-Nitrophenol Reduction /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.4.3.3.
|t Cases of Other Reactions /
|r Jiye Fang /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan --
|g 5.5.
|t Conclusions /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 5.6.
|t References /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 6.
|t Bimetallic Nanoframes and Nanoporous Structures /
|r Shaojie Jiang /
|r Yiliang Luan /
|r Xiaokun Fan /
|r Zewei Quan /
|r Jiye Fang --
|g 6.1.
|t Introduction /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.2.
|t Principles for the Formation of Bimetallic Nanoframes and Nanoporous Structures /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.2.1.
|t Top-Down Approach /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.2.2.
|t Bottom-Up Approach /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.
|t Synthetic Methods /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.1.
|t Template-Assisted Method /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.1.1.
|t Hard Template /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.1.2.
|t Soft Template /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.1.3.
|t Sacrificial Template /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|
| 505 |
0 |
0 |
|a Contents note continued:
|g 6.3.2.
|t Oxidative Etching /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.3.
|t Galvanic Replacement Reaction /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.4.
|t Kirkendall Effect /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.5.
|t Electrochemical Dealloying /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.6.
|t Assembly /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.3.7.
|t Other Methods of Interest /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.4.
|t Summary and Outlook /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 6.5.
|t References /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 7.
|t Bimetallic Dendritic Nanostructures /
|r Hongliang Li /
|r An Zhang /
|r Zhicheng Fang /
|r Jie Zeng --
|g 7.1.
|t Introduction /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.2.
|t Synthesis of Bimetallic Dendritic Nanostructures /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.2.1.
|t Coreduction /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.2.2.
|t Galvanic Replacement Reaction /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.2.3.
|t Seed-Mediated Growth /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.2.4.
|t Other Methods /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.3.
|t Properties and Applications of Bimetallic Dendritic Nanostructures /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.3.1.
|t Plasmonics /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.3.2.
|t Catalysis /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.4.
|t Conclusion and Outlook /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 7.5.
|t References /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 8.
|t Bimetallic Ultrathin Nanowires /
|r Kun Yuan /
|r Ya-Wen Zhang --
|g 8.1.
|t Introduction /
|r Junrui Li /
|r Zheng Xi /
|r Shouheng Sun --
|g 8.2.
|t Chemical Synthesis of Ultrathin Bimetallic Nanowires /
|r Junrui Li /
|r Zheng Xi /
|r Shouheng Sun --
|g 8.2.1.
|t Synthetic Fundamentals /
|r Junrui Li /
|r Zheng Xi /
|r Shouheng Sun --
|g 8.2.2.
|t Anisotropic Growth into Ultrathin Nanowires /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.3.
|t Chemical Synthesis of Ultrathin Bimetallic Nanowires /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.3.1.
|t Bimetallic Alloy Nanowires /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.3.2.
|t Bimetallic Core-Shell Nanowires /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.3.3.
|t Bimetallic Nanowires Formed by Directional Aggregation of Nanoparticles /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.4.
|t Concluding Remarks /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 8.5.
|t References /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 9.
|t Bimetallic Nanoplates and Nanosheets /
|r Junrui Li /
|r Shouheng Sun /
|r Zheng Xi --
|g 9.1.
|t Introduction /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.
|t Synthesis of Bimetallic Nanoplates and Nanosheets /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.1.
|t Seeded Epitaxial Growth Process /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.2.
|t Coreduction Process /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.3.
|t Solvothermal Reaction /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.4.
|t Galvanic Replacement Reaction /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.5.
|t Electrodeposition Process /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.2.6.
|t Other Processes /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.3.
|t Properties and Applications of Bimetallic Nanoplates and Nanosheets /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.3.1.
|t Magnetic Properties /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.3.2.
|t Catalytic Applications /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.3.3.
|t Optical and Biomedical Applications /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 9.4.
|t Conclusions and Perspectives /
|r Ziyu Yang /
|r Bing Dong /
|r Yanglong Hou --
|g 9.5.
|t References /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 10.
|t Electrocatalysis /
|r Bing Dong /
|r Yanglong Hou /
|r Ziyu Yang --
|g 10.1.
|t Introduction /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.2.
|t Effect of Bimetallic Nanostructures /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.2.1.
|t Electronic Effect /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.2.2.
|t Bifunctional Effect /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.2.3.
|t Ensemble Effect /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.2.4.
|t Morphology Effect /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.3.
|t Characterization Techniques /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.3.1.
|t Electron Microscopy /
|r Jiwhan Kim /
|r Juhyuk Choi /
|r Jinkyu Lim /
|r Hyunjoo Lee --
|g 10.3.2.
|t X-ray Diffraction Pattern (XRD) /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.3.3.
|t X-ray Photoelectron Spectroscopy (XPS) and X-ray Absorption Spectroscopy (XAS) /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.3.4.
|t Electrochemical Measurements /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.
|t Electrocatalytic Reactions Using Bimetallic Nanostructures /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.
|t Oxygen Reduction Reaction (ORR) /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.1.
|t ORR Using Pt-M Alloy Structures /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.2.
|t ORR Using Pt-M Intermetallic Structures /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.3.
|t Model Surface /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.4.
|t Shape-Controlled Pt3Ni Nanoparticles with (111) Facets /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.1.5.
|t Durability of the Bimetallic Nanoparticle Catalysts /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.2.
|t Fuel Oxidation /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.2.1.
|t Hydrogen Oxidation /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.2.2.
|t Methanol Oxidation /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.2.3.
|t Formic Acid Oxidation /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.2.4.
|t Oxidation of Other Small Organics /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.3.
|t Oxygen Evolution Reaction /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.3.1.
|t Alloy with Another Precious Metals /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.4.3.2.
|t Alloy with 3d Metals /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.5.
|t Perspective /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.6.
|t Conclusion /
|r Jiwhan Kim /
|r Juhyuk Choi /
|r Jinkyu Lim /
|r Hyunjoo Lee --
|g 10.7.
|t Acknowledgments /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 10.8.
|t References /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 11.
|t Heterogeneous Catalysis /
|r Jiwhan Kim /
|r Hyunjoo Lee /
|r Jinkyu Lim /
|r Juhyuk Choi --
|g 11.1.
|t Introduction /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.
|t Oxidation /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.1.
|t CO Oxidation /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.1.1.
|t Monometallic NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.1.2.
|t Compositional and Structural Effect in Bimetallic NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.2.
|t Preferential CO Oxidation in H2-Rich Feeds (PROX) /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.2.1.
|t Spherical Core-Shell NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.2.2.
|t Hollow Cubic NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.2.3.
|t Selective Oxidation of Alcohols and Amines /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.
|t Hydrogenation/Dehydrogenation /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.1.
|t Selective Hydrogenation of Nitroarenes /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.1.1.
|t Spherical and Random-Shaped NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.1.2.
|t Dendrite NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.1.3.
|t Cubic/Octahedral NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.1.4.
|t Hollow NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.2.
|t Hydrogenation of Alkenes and Alkynes /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.2.1.
|t Alkene Hydrogenation on Pt NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.2.2.
|t Alkene Hydrogenation on Shaped Bimetallic NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.2.3.
|t Semi-Hydrogenation of Alkynes on Shaped Bimetallic NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.3.
|t Selective Hydrogenation of αβ-Unsaturated Aldehydes /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.3.1.
|t Synergy of Bimetallic Combinations /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.3.3.2.
|t Capping Agent Effect /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.4.
|t H2 Evolution Reaction /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.5.
|t Coupling Reactions /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.5.1.
|t Spherical NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.5.2.
|t Polyhedral NPs /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.5.2.1.
|t Promotion of Activity Arising from High Index Facets and Larger Surface Area /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.5.2.2.
|t Facet-Activity Relationship /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.6.
|t Conclusion /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.7.
|t Acknowledgments /
|r Wenyu Huang /
|r Yuchen Pei --
|g 11.8.
|t References /
|r Wenyu Huang /
|r Yuchen Pei --
|g 12.
|t Plasmonics /
|r Wenyu Huang /
|r Yuchen Pei --
|g 12.1.
|t Introduction to Plasmonics /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.2.
|t Preparation of Gold Nanoparticles /
|r Liang Zhou /
|r Tian Zhao /
|r Xiao-Yong Wang /
|r Ling-Dong Sun /
|r Chun-Hua Yan --
|g 12.3.
|t Assembly of Gold Nanoparticles /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.3.1.
|t Assembly of Gold Nanoparticles /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.3.2.
|t Reversible Assembly of Gold Nanoparticles /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.3.3.
|t Assembly of Gold Nanoparticles on Substrate /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|
| 505 |
0 |
0 |
|a Contents note continued:
|g 12.4.
|t Plasmonics of Bimetallic Nanocrystals /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.4.1.
|t Au-Ag Nanostructure /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.4.2.
|t Au-Pd Nanostructure /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.4.3.
|t Other Bimetallic Plasmonic Nanostructures /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.5.
|t Application of Plasmonic Nanostructures /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.5.1.
|t Bio-Imaging Application /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.5.2.
|t Photothermal Application /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.5.3.
|t Biodetection Based on SPR /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.6.
|t Concluding Remarks /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 12.7.
|t References /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 13.
|t Sensing /
|r Liang Zhou /
|r Tian Zhao /
|r Chun-Hua Yan /
|r Ling-Dong Sun /
|r Xiao-Yong Wang --
|g 13.1.
|t Plasmonic Sensors /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.1.1.
|t Bimetallic SPR Sensors /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.1.2.
|t Sensors Based on LSPR Peak Shift /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.1.2.1.
|t LSPR Shift Induced by Binding of the Analytes with the Sensor /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.1.2.2.
|t LSPR Sensors Based on Selective Etching of a Metallic Component from the Preformed Bimetallic Nanoparticles /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.1.2.3.
|t LSPR Sensors Based on Enzyme-Guided Metallic Crystal Growth /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.2.
|t Bimetallic Sensors Based on Surface-Enhanced Raman Spectroscopy /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.
|t Electrochemical Sensors Based on Bimetallic Nanoparticles /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.1.
|t Detection of Heavy Metal Ions /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.2.
|t Detection of Uric Acid /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.3.
|t Nonenzymatic Detection of Hydrogen Peroxide /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.4.
|t Detection of Glucose /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.5.
|t Electrochemical Immunosensors /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.3.6.
|t Detection of other Electroactive Molecules /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.4.
|t Sensors Based on the Enzyme-Mimicking Properties of Bimetallic NPs /
|r Haijuan Li /
|r Yongdong Jin --
|g 13.5.
|t Sensors Based on Luminescent Bimetallic Nanoclusters /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.5.1.
|t Detection of Heavy Metal Ions /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.5.2.
|t Detection of Sulfide Anion /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.5.3.
|t Detection of Other Small Molecules /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.6.
|t Conclusions /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.7.
|t Acknowledgments /
|r Yongdong Jin /
|r Haijuan Li --
|g 13.8.
|t References /
|r Yongdong Jin /
|r Haijuan Li.
|
| 533 |
|
|
|a Electronic reproduction.
|b Ann Arbor, MI
|n Available via World Wide Web.
|
| 588 |
|
|
|a Description based on online resource; title from digital title page (viewed on September 17, 2018).
|
| 650 |
|
0 |
|a Metal catalysts.
|
| 650 |
|
0 |
|a Nanostructured materials.
|
| 700 |
1 |
|
|a Zhang, Ya-Wen,
|d 1965-
|e editor.
|
| 710 |
2 |
|
|a ProQuest (Firm)
|
| 776 |
0 |
8 |
|i Print version:
|t Bimetallic nanostructures.
|d Hoboken, NJ : John Wiley & Sons, 2018
|z 9781119214649
|w (DLC) 2018010417
|
| 856 |
4 |
0 |
|u https://ebookcentral.proquest.com/lib/santaclara/detail.action?docID=5394368
|z Connect to this title online (unlimited simultaneous users allowed; 325 uses per year)
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