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Lieferstatus:	Auf Bestellung (Lieferzeit unbekannt)
Veröffentlichung:	Juli 2018
Genre:	Naturwissensch., Medizin, Technik
	B / Chemical Engineering / Chemistry and Materials Science / Electronic materials / Industrial Chemistry / Industrial chemistry & chemical engineering / Industrial Chemistry/Chemical Engineering / Interfaces (Physical sciences) / Optical and Electronic Materials / Optical Materials / Surface and Interface and Thin Film / Surface and Interface Science, Thin Films / Surfaces (Physics) / Thin films
ISBN:	9789811088087
EAN-Code:	9789811088087
Verlag:	Springer Nature EN
Einband:	Gebunden
Sprache:	English
Serie:	Springer Theses
Dimensionen:	H 235 mm / B 155 mm / D
Gewicht:	412 gr
Seiten:	122
Illustration:	XXXVII, 122 p. 83 illus., 73 illus. in color., schwarz-weiss Illustrationen, farbige Illustrationen
Bewertung:	Titel bewerten / Meinung schreiben

Inhalt:

This thesis focuses on the growth of a new type of two-dimensional (2D) material known as hexagonal boron nitride (h-BN) using chemical vapor deposition (CVD). It also presents several significant breakthroughs in the authors' understanding of the growth mechanism and development of new growth techniques, which are now well known in the field. Of particular importance is the pioneering work showing experimental proof that 2D crystals of h-BN can indeed be hexagonal in shape. This came as a major surprise to many working in the 2D field, as it had been generally assumed that hexagonal-shaped h-BN was impossible due to energy dynamics. Beyond growth, the thesis also reports on synthesis techniques that are geared toward commercial applications. Large-area aligned growth and up to an eightfold reduction in the cost of h-BN production are demonstrated. At present, all other 2D materials generally use h-BN as their dielectric layer and for encapsulation. As such, this thesis lays the cornerstone for using CVD 2D h-BN for this purpose.