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200804s2020 enka ob 000 0 eng d |
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|a 10.1088/978-0-7503-3299-6
|2 doi
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|a (CaBNVSL)thg00981216
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|a (OCoLC)1182503055
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|a CaBNVSL
|b eng
|e rda
|c CaBNVSL
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|a TA418.9.N35
|b L567 2020eb
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|a 620.115
|2 23
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|a Lin, Shih-Yang,
|e author.
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|a Silicene-based layered materials :
|b essential properties /
|c Shih-Yang Lin, Hsin-Yi Liu, Duy Khanh Nguyen, Ngoc Thanh Thuy Tran, Hai Duong Pham, Shen-Lin Chang, Chiun-Yan Lin, Ming-Fa Lin.
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|a Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
|b IOP Publishing,
|c [2020]
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|a 1 online resource (various pagings) :
|b illustrations (some color).
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|a text
|2 rdacontent
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|a electronic
|2 isbdmedia
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|a online resource
|2 rdacarrier
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|a IOP ebooks. [2020 collection]
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|a "Version: 20200701"--Title page verso.
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|a Includes bibliographical references.
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|a 1. Introduction -- 2. The theoretical frameworks -- 2.1. The first-principles method -- 2.2. The generalized tight-binding model and others
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|a 3. Experimental measurements -- 3.1. LEED and TEM -- 3.2. STM, STS, SP-STM and SP-STS -- 3.3. ARPES and SP-ARPES -- 3.4. SQUID
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|a 4. Monolayer C-, Si-, Ge-, Sn- and Pb-based materials -- 4.1. The geometric, electronic and spin properties of monolayer group-IV materials -- 4.2. Significant differences between monolayer group-IV systems
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|a 5. Stacking-configuration-enriched fundamental properties in bilayer silicenes -- 5.1. The geometric, electronic and magnetic properties of sliding bilayer silicenes -- 5.2. Significant differences between bilayer silicenes and graphenes
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|a 6. Hydrogen-adsorbed silicene materials -- 6.1. Hydrogenated silicenes -- 6.2. Hydrogenated graphene
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|a 7. Halogenated silicene systems -- 7.1. Introduction -- 7.2. Halogenated silicenes -- 7.3. Conclusion
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|a 8. Sodium-, magnesium- and aluminum-doped silicene systems -- 8.1. Na adsorption -- 8.2. Mg adatoms -- 8.3. Al adatoms and the creation of diverse phenomena
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|a 9. Carbon-, boron- and nitrogen-substituted silicene compounds -- 9.1. Carbon-substitution-enriched fundamental properties -- 9.2. Varied phenomena in B-, C- and N-substituted silicenes -- 9.3. Nitrogen-substituted silicene systems and the important differences between them -- 9.4. Conclusion
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|a 10. Silicon adsorption and substitution on graphene -- 10.1. Introduction -- 10.2. Silicon-adsorbed graphene systems -- 10.3. Silicon-substituted graphene systems -- 10.4. Conclusion
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|a 11. Silicene on Ag(111) -- 11.1. Si-adlayer-Ag(111) -- 11.2. The AB-bt bilayer silicene-Ag(111) compound
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|a 12. Silicene-, germanene- and stanene-graphene composites -- 12.1. Si-graphene bilayer systems -- 12.2. Ge-graphene bilayer composites -- 12.3. Sn-graphene bilayer materials
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|a 13. Concluding remarks -- 14. Open issues and potential applications -- 15. Problems.
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|a This book examines in detail the application and theory of slicene-based layered materials, offering a new perspective on up-to-date mainstream theoretical and experimental research. It includes a wide range of layered systems, and takes into account the critical factors involved, such as the group-IV monoelements, stacking configurations, layer numbers, Moire superlattices. Multiorbital chemical bondings and spin-orbit coupling are discussed in detail, and the theoretical framework with first-principles calculations are developed to thoroughly describe the physical, chemical, and material phenomena and concise images explain the fundamental properties. The book is an invaluable guide for researchers studying silicene-based materials.
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|a Researchers studying silicene-based materials, including those with a background in physics, chemistry and/or materials science.
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|a Also available in print.
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|a System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
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|a Mode of access: World Wide Web.
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|a Shih-Yang Lin received his PhD in physics in 2015 from the National Cheng Kung University (NCKU), Taiwan. Since 2015, he has been a postdoctoral researcher at NCKU. Recently, he works as an exchange scholar in University of Houston. His scientific interests are focused on low-dimensional group IV materials and its derivatives using first-principle calculations. Hsin-Yi Liu received her PhD in chemistry in 2014 Technical University Berlin (TU-Berlin), Germany. She had been a postdoctoral researcher in 2014 at National Taiwan University (NTU), Taiwan. Since 2015, she has worked as a postdoctoral researcher at National Cheng Kung University (NCKU). Recently, her scientific research is focused on low-dimensional group IV materials such as mono- & bilayer materials, nanotubes and nanoribbons. They are investigated by use of first-principle calculations. Duy Khanh Nguyen received his PhD degree in Physics in 2019 from the National Cheng Kung University (NCKU), Taiwan. Since 2019, he works as a full-time researcher at Advanced Insitute of Materials Science, Ton Duc Thang University (TDTU), Vietnam. Recently, he also works as a specially appointed researcher at Graduate School of Engineering, Osaka University, Japan. His main research interests are to design computational materials using the first-principles calculations. Ngoc Thanh Thuy Tran obtained her PhD in physics in 2017 from the National Cheng Kung University (NCKU), Taiwan. Afterward, she began to work as a postdoctoral researcher and then an assistant researcher at Hierarchical Green-Energy Materials (Hi-GEM) Research Center, NCKU. Her scientific interest is focused on the fundamental properties of 2D materials and rechargeable battery materials by means of the first-principle calculations. Hai Duong Pham earned his PhD degree in July 2020 in the Department of Physics from National Cheng Kung University (NCKU), Taiwan. After finishing the PhD program, he continued to work as a researcher at NCKU. His current scientific interests focus on graphene-like systems using first-principle calculations and tight binding method. Shen-Lin Chang obtained his PhD in 2014 in physics from the National Cheng Kung University (NCKU), Taiwan. Since 2014, he has been a postdoctoral researcher at NCKU and NCTU. His main scientific interests are in the field of condensed matter physics. Most of his research is focused on the electronic and magnetic properties of one-dimensional nanomaterials. Chiun-Yan Lin obtained his PhD in 2014 in physics from the National Cheng Kung University (NCKU), Taiwan. Since 2014, he has been a postdoctoral researcher in the department of physics at NCKU. His main scientific interests are in the field of condensed matter physics, modeling and simulation of nanomaterials. Most of his research is focused on the electronic, optical and many-particle properties of low-dimensional nanomaterials. Ming-Fa Lin is a distinguished professor in the Department of Physics at National Cheng Kung University, Taiwan. He received his PhD in physics in 1993 from the National Tsing-Hua University, Taiwan. His main scientific interests focus on essential properties of carbon related materials and low-dimensional systems. He is a member of American Physical Society, American Chemical Society, and the Physical Society of Republic of China (Taiwan).
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|a Title from PDF title page (viewed on August 4, 2020).
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|a Nanosilicon.
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|a Layer structure (Solids)
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|a Materials science.
|2 bicssc
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|a TECHNOLOGY & ENGINEERING / Materials Science / Thin Films, Surfaces & Interfaces.
|2 bisacsh
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|a Liu, Hsin-Yi,
|e author.
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|a Nguyen, Duy Khanh,
|e author.
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|a Tran, Ngoc Thanh Thuy,
|e author.
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|a Pham, Hai Duong,
|e author.
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|a Chang, Shen-Lin,
|d 1963-
|e author.
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|a Lin, Chiun-Yan,
|e author.
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|a Lin, Ming-Fa,
|e author.
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|a Institute of Physics (Great Britain),
|e publisher.
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|i Print version:
|z 9780750332972
|z 9780750333009
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|a IOP ebooks.
|p 2020 collection.
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|u https://iopscience.uam.elogim.com/book/978-0-7503-3299-6
|z Texto completo
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