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Titlebook: Silicene; Structure, Propertie Michelle J.S. Spencer,Tetsuya Morishita Book 2016 Springer International Publishing Switzerland 2016 Absorpt

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發(fā)表于 2025-3-21 16:06:00 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書目名稱Silicene
副標(biāo)題Structure, Propertie
編輯Michelle J.S. Spencer,Tetsuya Morishita
視頻videohttp://file.papertrans.cn/868/867290/867290.mp4
概述Covers the latest developments in the field of two-dimensional nanomaterials of silicon.Brings together some of the most prominent researchers in this field.Discusses the applicational potential of si
叢書名稱Springer Series in Materials Science
圖書封面Titlebook: Silicene; Structure, Propertie Michelle J.S. Spencer,Tetsuya Morishita Book 2016 Springer International Publishing Switzerland 2016 Absorpt
描述This book reviews the current state-of-the art of single layer silicene up to thicker silicon nanosheets, and their structure, properties and potential applications. Silicene is a newly discovered material that is one atomic layer think. It is a two-dimensional (2D) nanomaterial that is classified as a nanosheet, which has large lateral dimensions up to micrometres, but thicknesses of only nanometres or less. Silicon nanosheets are currently a very ‘hot’ area of research. The unique properties and morphology of such materials make them ideal for a variety of applications, including electronic devices, batteries and sensors. 2D nanosheets of silicon can be considered as analogues of graphene. As silicon is already the major component of electronic devices, the significance of nanosheets composed of silicon is that they can be more easily integrated into existing electronic devices. Furthermore, if 2D nanostructured Si can be implemented into such devices, then their size could be reduced into the nano-regime, providing unique properties different from bulk Si that is currently employed. The book is written for researchers and graduate students.
出版日期Book 2016
關(guān)鍵詞Absorption of Molecules on Silicene Films; Atom Functionalised Silicene; Doped Silicene; Functionalized
版次1
doihttps://doi.org/10.1007/978-3-319-28344-9
isbn_softcover978-3-319-80330-2
isbn_ebook978-3-319-28344-9Series ISSN 0933-033X Series E-ISSN 2196-2812
issn_series 0933-033X
copyrightSpringer International Publishing Switzerland 2016
The information of publication is updating

書目名稱Silicene影響因子(影響力)




書目名稱Silicene影響因子(影響力)學(xué)科排名




書目名稱Silicene網(wǎng)絡(luò)公開度




書目名稱Silicene網(wǎng)絡(luò)公開度學(xué)科排名




書目名稱Silicene被引頻次




書目名稱Silicene被引頻次學(xué)科排名




書目名稱Silicene年度引用




書目名稱Silicene年度引用學(xué)科排名




書目名稱Silicene讀者反饋




書目名稱Silicene讀者反饋學(xué)科排名




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Soft Chemical Synthesis of Functionalized Silicenecenes can be prepared by modifying a layered polysilane (Si.H.), which has an analogous structure to that of graphite, and this allows the properties of the silicene to be controlled in order to make it suitable for particular applications. The potential applications of these silicenes and organic modified silicenes are also reviewed.
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Silicene on Ag(111): Structure Evolution and Electronic Structuren the geometric and electronic structures of silicene grown on Ag(111), from the sub-monolayer regime to the formation of multilayers, with the focus being on the . and . superstructures. Several puzzles that we have solved are discussed, as well as ones that are yet to be solved.
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Adsorption of Molecules on Siliceneadsorption on the electronic structure and chemical properties of silicene are important for the development of its applications, which is discussed in Sect.?.. We conclude the chapter with the future research directions.
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發(fā)表于 2025-3-22 23:47:18 | 只看該作者
Physical Properties of Siliceneterest in silicene is exactly the same as that for graphene, in being two-dimensional and possessing a Dirac cone. One advantage relies on its possible application in electronics, whereby its natural compatibility with the current Si technology might make fabrication much more of a commercial realit
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Free-Standing Multilayer Silicene: Molecular-Dynamics and Density Functional Theory Studiesronic properties of multilayer silicene in vacuum, which are quite different to those of single-layer silicene, especially at finite temperature. We will begin with a molecular dynamics study that predicts the possible formation process of bilayer silicene (BLS) in a slit nanopore upon quenching. Th
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