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  4. Creation of 3D Textured Graphene/Si Schottky Junction Photocathode for Enhanced Photo-Electrochemical Efficiency and Stability
 
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Creation of 3D Textured Graphene/Si Schottky Junction Photocathode for Enhanced Photo-Electrochemical Efficiency and Stability

Journal
Advanced Energy Materials
Journal Volume
9
Journal Issue
29
Date Issued
2019
Author(s)
Ku C.-K.
Wu P.-H.
Chung C.-C.
Chen C.-C.
Tsai K.-J.
Chen H.-M.
Chang Y.-C.
Chuang C.-H.
Wei C.-Y.
Wen C.-Y.
Lin T.-Y.
Chen H.-L.
Wang Y.-S.
Lee Z.-Y.
Chang J.-R.
Luo C.-W.
Wang D.-Y.
Hwang B.J.
CHUN-WEI CHEN  
CHENG-YEN WEN  
HSUEN-LI CHEN  
DOI
10.1002/aenm.201901022
URI
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85067021826&doi=10.1002%2faenm.201901022&partnerID=40&md5=98cb31b9adf7567c8018c61f6100f840
https://scholars.lib.ntu.edu.tw/handle/123456789/432775
Abstract
This work presents a novel photo-electrochemical architecture based on the 3D pyramid-like graphene/p-Si Schottky junctions. Overcoming the conventional transfer technique by which only planar graphene/Si Schottky junctions are currently available, this work demonstrates the 3D pyramid-like graphene/p-Si Schottky junction photocathode, which greatly enhances light harvesting efficiency and exhibits promising photo-electrochemical performance for hydrogen generation. The formation of 3D pyramid-like graphene/p-Si Schottky junctions exhibits enhanced electrochemical activity and promotes charge separation efficiency compared with the bare pyramid Si surface without graphene. The inherent chemical inertness of graphene significantly improves the operational stability of 3D graphene/p-Si Schottky junction photo-electrochemical cells. The 3D pyramid-like graphene/p-Si Schottky junction photocathode delivers an onset potential of 0.41 V and a saturated photocurrent density of −32.5 mA cm−2 at 0 V (vs RHE) with excellent stability comparable to values reported for textured or nanostructured p-Si photocathodes coated with ultrathin oxide layers by the conventional atomic layer deposition technique. These results suggest that the formation of graphene/Si Schottky junctions with a 3D architecture is a promising approach to improve the performance and durability of Si-based photo-electrochemical systems for water splitting or solar-to-fuel conversion. © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
SDGs

[SDGs]SDG7

Other Subjects
Atomic layer deposition; Chemical stability; Efficiency; Electrochemical cells; Field emission cathodes; Graphene; Hydrogen production; Photocathodes; Textures; Electrochemical activities; Electrochemical performance; Electrochemical systems; Hydrogen generations; Operational stability; Schottky junctions; Ultra-thin oxide layers; Water splitting; Image enhancement
Publisher
Wiley-VCH Verlag
Type
journal article

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