Please use this identifier to cite or link to this item: https://doi.org/10.1021/nn3010137
Title: Graphene-ferroelectric hybrid structure for flexible transparent electrodes
Authors: Ni, G.-X.
Zheng, Y. 
Bae, S.
Tan, C.Y.
Kahya, O.
Wu, J.
Hong, B.H.
Yao, K.
Özyilmaz, B. 
Keywords: Charged impurity scattering
CVD graphene
Ferroelectric polymer gating
High transparency
Mechanical flexibility
Sheet resistance
Issue Date: 22-May-2012
Citation: Ni, G.-X., Zheng, Y., Bae, S., Tan, C.Y., Kahya, O., Wu, J., Hong, B.H., Yao, K., Özyilmaz, B. (2012-05-22). Graphene-ferroelectric hybrid structure for flexible transparent electrodes. ACS Nano 6 (5) : 3935-3942. ScholarBank@NUS Repository. https://doi.org/10.1021/nn3010137
Abstract: Graphene has exceptional optical, mechanical, and electrical properties, making it an emerging material for novel optoelectronics, photonics, and flexible transparent electrode applications. However, the relatively high sheet resistance of graphene is a major constraint for many of these applications. Here we propose a new approach to achieve low sheet resistance in large-scale CVD monolayer graphene using nonvolatile ferroelectric polymer gating. In this hybrid structure, largescale graphene is heavily doped up to 3 × 10 13 cm -2 by nonvolatile ferroelectric dipoles, yielding a low sheet resistance of 120 Ω/□ at ambient conditions. The graphene-ferroelectric transparent conductors (GFeTCs) exhibit more than 95% transmittance from the visible to the near-infrared range owing to the highly transparent nature of the ferroelectric polymer. Together with its excellent mechanical flexibility, chemical inertness, and the simple fabrication process of ferroelectric polymers, the proposed GFeTCs represent a new route toward large-scale graphenebased transparent electrodes and optoelectronics. © 2012 American Chemical Society.
Source Title: ACS Nano
URI: http://scholarbank.nus.edu.sg/handle/10635/93900
ISSN: 19360851
DOI: 10.1021/nn3010137
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