Influence of Particle Beam Irradiation on the Structure and Properties of Graphene (Springer Theses) - Hardcover

Buch 363 von 797: Springer Theses

Wu, Xin

 
9789811064562: Influence of Particle Beam Irradiation on the Structure and Properties of Graphene (Springer Theses)
Hardcover
ISBN 10: 9811064563 ISBN 13: 9789811064562
Verlag: Springer, 2017

Inhaltsangabe

This thesis focuses on the nanomanufacturing of graphene―a newly discovered, two-dimensional material with extraordinary properties―in order to realize its numerous potential applications. Combining experimental implementation with theoretical modelling, it investigates three classes of graphene nanostructure fabrication using particle beam irradiation: (i) doping of graphene using low energy nitrogen irradiation; (ii) joining of graphene sheets with laser and C, N, and Ar ion beam irradiation; and (iii) fabrication of graphene nanopores by means of focused ion beam and electron beam irradiation. The feasibility of the nanomanufacture of graphene using particle beam irradiation is demonstrated by various experimental methods, and the mechanisms involved under different types of beam irradiation are revealed using theoretical calculations. Further, the book analyzes the mechanical and electrical properties of the fabricated graphene nanostructures by means of atomic simulations to predict the application potentials of the proposed methods. The findings help promote the implementation of graphene-structure applications in industry.

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Über die Autorin bzw. den Autor

Xiang Ji graduated from the School of Earth Sciences and Engineering, Nanjing University. His main research interest is geochemistry, and he has been a researcher at Zhejiang Provincial Institute of Cultural Relics and Archeology since graduation and has participated in research programs concerning the Liangzhu archeological site. His recent papers include "A Study on the Properties and Origin of the Stones Used in the Making of Stone Artifacts at Liangzhu Archeological site," "Restorartion of the Paleoenvironment outside the Ancient City of Liangzhu," and "The Characteristics and Provenance of the Sr-Nd Isotope in the Liangzhu Remains and its Significance on the Extinction of the Ancient Culture." Shu Song holds a master's degree in Archeozoology from Jilin University. She is a researcher at the Zhejiang Provincial Institute of Cultural Relics and Archeology, where she focuses on studies of animal remains at the Liangzhu archeological site. She has participated in excavation projects at Weijiawopu in Inner Mongolia, Houtaomuga in Jilin, and Hebosuo in Yunan and has published a number of articles, including "A Study on the Animal Bone Remains Excavated at Heibei Archeological Site in Wangqing, Jilin," "A Study on G1 Animal Bone Remains Discovered at Houtaomuga Archeological Site in Daan, Jilin," and "A Summary of the Animial Remains Unearthed at Liangzhu Archeological Site." Xin Wu is a researcher at Zhejiang Provincial Institute of Cultural Relics and Archeology. She completed her postgraduate studies in Archeobotany at the School of History and Culture, Shandong University. She is responsible for the academic studies on plant remains at the Liangzhu archeological site, and she has also been involved in exploration work at Luhe in Jiaxian county, Guanzhuang in Xingyang county, and Dalaidian in Hebi city, Henan province.

Von der hinteren Coverseite

This thesis focuses on the nanomanufacturing of graphene―a newly discovered, two-dimensional material with extraordinary properties―in order to realize its numerous potential applications. Combining experimental implementation with theoretical modelling, it investigates three classes of graphene nanostructure fabrication using particle beam irradiation: (i) doping of graphene using low energy nitrogen irradiation; (ii) joining of graphene sheets with laser and C, N, and Ar ion beam irradiation; and (iii) fabrication of graphene nanopores by means of focused ion beam and electron beam irradiation. The feasibility of the nanomanufacture of graphene using particle beam irradiation is demonstrated by various experimental methods, and the mechanisms involved under different types of beam irradiation are revealed using theoretical calculations. Further, the book analyzes the mechanical and electrical properties of the fabricated graphene nanostructures by means of atomic simulations to predict the application potentials of the proposed methods. The findings help promote the implementation of graphene-structure applications in industry.

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Verlag
Springer
Erscheinungsdatum
2017
Sprache
Englisch
ISBN 10 
9811064563
ISBN 13 
9789811064562
Einband
Gebundene Ausgabe
Auflage
1
Anzahl der Seiten
197
Kontakt zum Hersteller
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Darmstadt
64293
Deutschland

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9789811348839: Influence of Particle Beam Irradiation on the Structure and Properties of Graphene (Springer Theses)

Vorgestellte Ausgabe

ISBN 10:  9811348839 ISBN 13:  9789811348839
Verlag: Springer, 2018
Softcover