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Hierarchical pompon-like cobalt phosphide as a platinum-free electrocatalyst for dye-sensitized solar cells

Different cobalt phosphide particles having one-dimensional needle-like (1D CoP-N), two-dimensional sheet-like (2D CoP-S), and multi-dimensional pompon-like (3-2-1D CoP-P) morphologies were successfully synthesized via a simple hydrothermal method, followed by phosphorization post-treatment. A soft-...

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Bibliographic Details
Published in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2022-11, Vol.1 (45), p.17216-17224
Main Authors: Yeh, Chia-Lin, Huang, Yi-June, Chen, Han-Ting, Tsai, Hsin-An, Li, Chun-Ting, Lee, Chuan-Pei, Ho, Kuo-Chuan
Format: Article
Language:English
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Summary:Different cobalt phosphide particles having one-dimensional needle-like (1D CoP-N), two-dimensional sheet-like (2D CoP-S), and multi-dimensional pompon-like (3-2-1D CoP-P) morphologies were successfully synthesized via a simple hydrothermal method, followed by phosphorization post-treatment. A soft-template of a pompon-like Co(OH) X -P particle was first grown via a three-step mechanism: (1) the formation of a 2D micro-sheet, (2) the construction of a 3D micro-flower due to the radial growth of a 2D nano-sheet/silk on the micro-sheet, and (3) the perpendicular decoration of numerous 1D nano-needles on every 2D micro-sheet. After the phosphorization process, a hierarchical charge transfer route from a 3D micro-flower to a 2D micro-sheet and lastly to a 1D nano-needle array was effectively established in a pompon-like CoP micro-sphere in the presence of numerous electrochemical active sites. In order to serve as the electrocatalyst for triiodide ion (I 3 − ) reduction in dye-sensitized solar cells (DSSCs), the electrodes having 1D CoP-N and 3-2-1D CoP-P rendered their devices with satisfactory cell efficiencies ( η ) of 8.50% and 8.80%, respectively, which were better than the expensive Pt-based cell (8.24%). Under a room light illumination, the pompon-like CoP electrocatalyst rendered its device satisfactory performance up to 17.27% at 7 klux (for lampshade) and 14.22% at 1 klux (for office), implying the promising potential of CoP-based materials to replace Pt in DSSCs and other electrochemical devices. Hierarchical 3D CoP micro-pompon assembled by 1D-nano-needle-array decorated 2D-micro-sheets provided facile charge transfer and lots of electrocatalytic active sites to deliver decent DSSC performance (8.80% at 1 sun; 17.27% at 7 klux).
ISSN:2050-7526
2050-7534
DOI:10.1039/d2tc03435b