Microstructures, Growth Mechanism of ZnS Nanomatrials Farbicated by Physical Vapor Deposition

Jiang Feng Gong; Chang Yong Lan; Bo Zhang; Wei Hua Zhu; Ming Yi Liu

doi:10.4028/www.scientific.net/AMR.356-360.533

Paper Titles

Preparation and Microwave Absorption Property of the Core-Nanoshell Composite Materials Doped with Sm
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Preparation of Polyaniline–ZnO Photocatalyst and its Photocatalytic Property
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Preparation of Polyaniline Supported TiO₂ Photocatalyst and its Photocatalytic Property
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Research of SO₂ Resistance of MnOx Catalyst Modified by Ce for Low Temperature SCR with NH₃
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Microstructures, Growth Mechanism of ZnS Nanomatrials Farbicated by Physical Vapor Deposition
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Sorption Profile of Hg(II) onto Mixed Phase of Copper Sulphide and Copper Sulphate
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Application of Activated Carbon Fiber Coated with Cobalt Oxide in Mercury Removal from Simulated Flue Gas
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Characterization and Application of Expanded Graphite Coated by Fe₃O₄ Nanoparticles
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Preparation and Photocatalytic Activity Research of Hollow Cubic TiO₂ Particles
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 356-360Microstructures, Growth Mechanism of ZnS...

Microstructures, Growth Mechanism of ZnS Nanomatrials Farbicated by Physical Vapor Deposition

Abstract:

In this paper, one-dimensional ZnS nanostructures were fabricated in a conventional tube furnace by physical vapor deposition method using commercial ZnS powder as the starting materials. The morphologies, microstructures of the products were characterized. The results revealed that the products showed different morphology in different deposition temperature area. The growth mechanisms of the products were also discussed. The nanowires and triangular nanosheets formed via a vapor-liquid-solid process, while the nanobelts formed via a vapor-solid process. The key factors which influenced the morphologies of the products were discussed.