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Autoren:
Lee, Kangho; Szydłowska, Beata M.; Hartwig, Oliver; Synnatschke, Kevin; Tywoniuk, Bartlomiej; Hartman, Tomas; Tomasevic-Ilic, Tijana; Gabbett, Cian P.; Coleman, Jonathan N.; Sofer, Zdenek; Spasenovic, Marko; Backes, Claudia; Duesberg, Georg S. 
Dokumenttyp:
Zeitschriftenartikel / Journal Article 
Titel:
Highly conductive and long-term stable films from liquid-phase exfoliated platinum diselenide 
Zeitschrift:
Journal of Materials Chemistry C 
Jahrgang:
11 
Heftnummer:
Jahr:
2023 
Seiten von - bis:
593-599 
Sprache:
Englisch 
Abstract:
Liquid-phase exfoliation (LPE) has been introduced as a versatile and scalable production method for two-dimensional (2D) materials. This method yields dispersions that allow for the fabrication of printable and flexible electronic devices. However, the fabrication of uniform and homogeneous films from LPE dispersions with a performance similar to that of bottom-up grown materials remains a challenge, as the film quality strongly influences the optical and electrical performance of devices. Furthermore, longterm stability remains a major challenge for all 2D material based applications. In this study, we report on highly conductive tiled network films made of platinum diselenide (PtSe2) flakes derived using a scalable LPE method. We characterized the homogeneous films in terms of morphology and electrical behavior. As an example of applicability, we produce a chemiresistive sensor structure with the PtSe2 films and show significant resistance changes upon periodic ammonia gas exposures, revealing a sub- 0.1 part per million (ppm) detection limit (DL). More remarkably the devices are fully functional after 15 months, underlining the high stability of PtSe2 based devices. 
Fakultät:
Fakultät für Elektrotechnik und Informationstechnik 
Institut:
EIT 2 - Institut für Physik 
Professur:
Düsberg, Georg S. 
Projekt:
Graphene Flagship Core 3 ; NobleNEMS ; Vital Sense 
Open Access ja oder nein?:
Ja / Yes 
Art der OA-Lizenz:
CC BY 3.0