Magnetic and Electric Field Dependent Charge Transfer in Perovskite/Graphene Field Effect Transistors

Nathan D. Cottam; Jonathan S. Austin; Chengxi Zhang; Amalia Patanè; Walter Escoffier; Michel Goiran; Mathieu Pierre; Camilla Coletti; Vaidotas Mišeikis; Lyudmila Turyanska; Oleg Makarovsky

doi:10.1002/aelm.202200995

Advanced Electronic Materials (Feb 2023)

Magnetic and Electric Field Dependent Charge Transfer in Perovskite/Graphene Field Effect Transistors

Nathan D. Cottam,
Jonathan S. Austin,
Chengxi Zhang,
Amalia Patanè,
Walter Escoffier,
Michel Goiran,
Mathieu Pierre,
Camilla Coletti,
Vaidotas Mišeikis,
Lyudmila Turyanska,
Oleg Makarovsky

Affiliations

Nathan D. Cottam: School of Physics and Astronomy University of Nottingham University Park Nottingham NG7 2RD United Kingdom
Jonathan S. Austin: Centre for Additive Manufacturing Faculty of Engineering University of Nottingham Jubilee Campus Nottingham NG8 1BB United Kingdom
Chengxi Zhang: Key Laboratory of Advanced Display and System Applications Shanghai University 149 Yanchang Road Shanghai 200072 China
Amalia Patanè: School of Physics and Astronomy University of Nottingham University Park Nottingham NG7 2RD United Kingdom
Walter Escoffier: INSA Toulouse Université Paul Sabatier Université de Toulouse LNCMI UPR CNRS 3228, EMFL, 143 Avenue de Rangueil Toulouse 31400 France
Michel Goiran: INSA Toulouse Université Paul Sabatier Université de Toulouse LNCMI UPR CNRS 3228, EMFL, 143 Avenue de Rangueil Toulouse 31400 France
Mathieu Pierre: INSA Toulouse Université Paul Sabatier Université de Toulouse LNCMI UPR CNRS 3228, EMFL, 143 Avenue de Rangueil Toulouse 31400 France
Camilla Coletti: Center for Nanotechnology Innovation @NEST Istituto Italiano di Tecnologia Piazza San Silvestro, 12 Pisa I‐56127 Italy
Vaidotas Mišeikis: Center for Nanotechnology Innovation @NEST Istituto Italiano di Tecnologia Piazza San Silvestro, 12 Pisa I‐56127 Italy
Lyudmila Turyanska: Centre for Additive Manufacturing Faculty of Engineering University of Nottingham Jubilee Campus Nottingham NG8 1BB United Kingdom
Oleg Makarovsky: School of Physics and Astronomy University of Nottingham University Park Nottingham NG7 2RD United Kingdom

DOI: https://doi.org/10.1002/aelm.202200995
Journal volume & issue: Vol. 9, no. 2
pp. n/a – n/a

Abstract

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Abstract Stable all‐inorganic CsPbX3 perovskite nanocrystals (PNCs) with high optical yield can be used in combination with graphene as photon sensors with high responsivity (up to 106 A W−1) in the VIS‐UV range. The performance of these perovskite/graphene field effect transistors (FET) is mediated by charge transfer processes at the perovskite – graphene interface. Here, the effects of high electric (up to 3000 kV cm−1) and magnetic (up to 60 T) fields applied perpendicular to the graphene plane on the charge transfer are reported. The authors demonstrate electric‐ and magnetic‐field dependent charge transfer and a slow (>100 s) charge dynamics. Magneto‐transport experiments in constant (≈0.005 T s−1) and pulsed (≈1000 T s−1) magnetic fields reveal pronounced hysteresis effects in the transfer characteristics of the FET. A magnetic time is used to explain and model differences in device behavior under fast (pulsed) and slowly (continuous) changing magnetic fields. The understanding of the dynamics of the charge transfer in perovskite/graphene heterostructures developed here is relevant for exploitation of these hybrid systems in electronics and optoelectronics, including ultrasensitive photon detectors and FETs for metrology.

Published in Advanced Electronic Materials

ISSN: 2199-160X (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electric apparatus and materials. Electric circuits. Electric networks; Science: Physics
Website: https://onlinelibrary.wiley.com/journal/2199160x

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