Artículo
Electron tunneling at the molecularly thin 2D perovskite and graphene van der Waals interface
Leng, Kai; Wang, Lin; Shao, Yan; Abdelwahab, Ibrahim; Grinblat, Gustavo Sergio
; Verzhbitskiy, Ivan; Li, Runlai; Cai, Yongqing; Chi, Xiao; Fu, Wei; Song, Peng; Rusydi, Andrivo; Eda, Goki; Maier, Stefan A.; Loh, Kian Ping
Fecha de publicación:
10/2020
Editorial:
Nature Publishing Group
Revista:
Nature Communications
ISSN:
2041-1723
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Quasi-two-dimensional perovskites have emerged as a new material platform for optoelectronics on account of its intrinsic stability. A major bottleneck to device performance is the high charge injection barrier caused by organic molecular layers on its basal plane, thus the best performing device currently relies on edge contact. Herein, by leveraging on van der Waals coupling and energy level matching between two-dimensional Ruddlesden-Popper perovskite and graphene, we show that the plane-contacted perovskite and graphene interface presents a lower barrier than gold for charge injection. Electron tunneling across the interface occurs via a gate-tunable, direct tunneling-to-field emission mechanism with increasing bias, and photoinduced charge transfer occurs at femtosecond timescale (~50 fs). Field effect transistors fabricated on molecularly thin Ruddlesden-Popper perovskite using graphene contact exhibit electron mobilities ranging from 0.1 to 0.018 cm2V−1s−1 between 1.7 to 200 K. Scanning tunneling spectroscopy studies reveal layer-dependent tunneling barrier and domain size on few-layered Ruddlesden-Popper perovskite.
Palabras clave:
Graphene
,
2D Hybrid perovskites
,
Tunneling
,
Pump/probe spectroscopy
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Articulos(IFIBA)
Articulos de INST.DE FISICA DE BUENOS AIRES
Articulos de INST.DE FISICA DE BUENOS AIRES
Citación
Leng, Kai; Wang, Lin; Shao, Yan; Abdelwahab, Ibrahim; Grinblat, Gustavo Sergio; et al.; Electron tunneling at the molecularly thin 2D perovskite and graphene van der Waals interface; Nature Publishing Group; Nature Communications; 11; 1; 10-2020; 1-8
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