Cost effective synthesis Co9S8/Ni9S8 loaded on nitrogen doped porous carbons high efficiency counter electrode materials for liquid thin film solar cells

Synthesis of non-precious metal materials with cost-effective and excellent electrocatalytic activity as counter electrode (CE) of dye-sensitized solar cells (DSSCs) remains a challenge. Herein, MOF-based self-sustaining template and ion exchange method are developed to fabricate Co9S8 and Ni9S8 loa...

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Bibliographic Details
Published in:Electrochimica acta 2021-12, Vol.399, p.139441, Article 139441
Main Authors: Zhao, Kaifeng, Zhao, Youwei, Hao, Menghui, Li, Xiaoting, Liu, Shuang, Li, Ling, Zhang, Wenming
Format: Article
Language:English
Subjects:
Carbon
Catalytic activity
Catalytic converters
Co9S8/Ni9S8@C-N
Cobalt sulfide
Composite materials
Conductors
Dye-sensitized solar cells
Dye-sensitized solar cells: Counter electrode
Electrode materials
Ion exchange
Metal-organic framework
Nitrogen
Photoelectricity
Photovoltaic cells
Porous materials
Redox reactions
Stability
Synergistic effect
Synthesis
Thin films
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Summary:Synthesis of non-precious metal materials with cost-effective and excellent electrocatalytic activity as counter electrode (CE) of dye-sensitized solar cells (DSSCs) remains a challenge. Herein, MOF-based self-sustaining template and ion exchange method are developed to fabricate Co9S8 and Ni9S8 loaded on N-doped porous carbon nanocage materials (Co9S8/Ni9S8@C-N) with large specific surface area and remarkable catalytic activities to the reduction of I3− ions. The excellent performance of Co9S8/Ni9S8@C-N is owing to the synergistic effect of Ni9S8 and Co9S8 can further improve the catalytic activity and N-doped porous carbon nanocage as a good conductor provides a suitable place for the redox reaction and guarantees the stability of the material. As a CE catalytic material, Co9S8/Ni9S8@C-N reveals excellent catalytic activity and stability, making the photoelectric conversion efficiency (PCE) 17.54% higher than Pt CE. The Co9S8/Ni9S8@C-N composite material reveals the remarkable potential as a CE in the DSSCs.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2021.139441