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Autoren:
Quellmalz, Arne; Sawallich, Simon; Prechtl, Maximilian; Hartwig, Oliver; Düsberg, Georg; Lemme, Max; Niklaus, Frank; Gylfason, Kristinn 
Dokumenttyp:
Konferenzbeitrag / Conference Paper 
Titel:
Wafer-scale integration of layered 2D materials by adhesive wafer bonding 
Herausgeber Sammlung:
Majumdar, Arka; Torres, Carlos M.; Deng, Hui 
Titel Konferenzpublikation:
2D Photonic Materials and Devices V 
Reihentitel:
SPIE Proceedings 
Bandnummer Reihe:
12003 
Konferenztitel:
SPIE OPTO (2022, San Francisco, Calif.) 
Konferenztitel:
SPIE OPTO 2022 
Tagungsort:
San Francisco, California 
Jahr der Konferenz:
2022 
Datum Beginn der Konferenz:
22.01.2022 
Datum Ende der Konferenz:
27.01.2022 
Verlag:
SPIE 
Jahr:
2022 
Seiten von - bis:
1200304 
Sprache:
Englisch 
Stichwörter:
Graphene ; Semiconducting wafers ; Adhesives ; Molybdenum ; Heterojunctions ; Wafer bonding ; Chemical vapor deposition ; Raman spectroscopy ; Silicon ; Resistance ; Optoelectronics integration ; Very large scale integration 
Abstract:
The integration of atomically thin materials into semiconductor and photonic foundries is crucial for their use in commercial devices. However, current integration approaches are not compatible with industrial processing on wafer level, which is one of the bottlenecks hindering the breakthrough of 2D materials. Here, we present a generic methodology for the large-area transfer of 2D materials and their heterostructures by adhesive wafer bonding for use at the back end of the line (BEOL). Our approach exclusively uses processes and materials readily available in most largescale semiconductor manufacturing lines. Experimentally, we demonstrated the transfer of CVD graphene from Cu foils to 100-mm-diameter silicon wafers, the stacking of two monolayers of graphene to 2-layer graphene, and the formation of MoS2/graphene heterostructures by two consecutive transfers. We expect that our methodology is an important step towards the commercial use of 2D materials for a wide range of applications in optics and photonics. 
ISBN:
9781510648777 
Article-ID:
1200304 
Fakultät:
Fakultät für Elektrotechnik und Informationstechnik 
Institut:
EIT 2 - Institut für Physik 
Professur:
Düsberg, Georg 
Open Access ja oder nein?:
Nein / No