Issue 7, 2018

Unconventional gas-based bottom-up, meter-area-scale fabrication of hydrogen-bond free g-CN nanorod arrays and coupling layers with TiO2 toward high-efficiency photoelectrochemical performance

Abstract

Meter-scale uniform g-CN nanorod (NR) arrays were directly grown on an FTO glass using an unprecedented vacuum magnetic filtered arc ion plating system for enhanced photoelectrochemical (PEC) performance. The construction of the g-CN film is based on the substrate deposition of the direct reaction of ionized carbon and nitrogen species, a gas-based bottom-up approach, distinctly different from the traditional powder deposition and thermal vapor pathways. The g-CN film exhibits obvious advantages over conventional ones in the application of PEC: (1) direct reaction of C and N species allows the formation of the g-CN without intralayer hydrogen bonds, which significantly reduces intralayer photogenerated charge carriers transfer resistance; (2) the g-CN exhibits the NR array structure and comprises considerably numerous layers stacking by stacking and vertically standing on the FTO substrate, which facilitates the photogenerated charges transfer and increases the contact area with electrolyte; (3) the robust mechanical strength of the g-CN NR film with the FTO substrate not only favors the effective charge transport but also allows long-term practical application against abrasion; (4) the gas-based bottom-up approach enables the g-CN to easily couple with, including but not limited to, TiO2 NR array to form heterostructures to further improve charge separation.

Graphical abstract: Unconventional gas-based bottom-up, meter-area-scale fabrication of hydrogen-bond free g-CN nanorod arrays and coupling layers with TiO2 toward high-efficiency photoelectrochemical performance

Supplementary files

Article information

Article type
Paper
Submitted
12 dek 2017
Accepted
09 yan 2018
First published
09 yan 2018

Nanoscale, 2018,10, 3342-3349

Unconventional gas-based bottom-up, meter-area-scale fabrication of hydrogen-bond free g-CN nanorod arrays and coupling layers with TiO2 toward high-efficiency photoelectrochemical performance

R. Wang, H. Liu, Z. Fan, L. Li, Y. Cai, G. Xu, W. Luo, B. Yang, Y. Zhou and Z. Zou, Nanoscale, 2018, 10, 3342 DOI: 10.1039/C7NR09244J

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