4.6 Article

Synergistic effect of photo-reduced Ni-Ag loaded g-C3N4 nanosheets for efficient visible Light-Driven photocatalytic hydrogen evolution

Journal

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2021.106187

Keywords

Ternary Ni-Ag/g-C3N4 composite; G-C3N4 nanosheets; Synergistic effect; Photo-reduction; H-2 production

Funding

  1. University Technology Malaysia, Malaysia [Q.J130000.2551.21H66]

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A heterogenous ternary Ni and Ag co-modified g-C3N4 nanocomposite was designed and fabricated for photo-catalytic hydrogen production from methanol-water mixture, exhibiting strong visible-light absorption and efficient charge carrier separation due to synergistic effect. The optimized 3Ni-1Ag/CN sample delivered significantly higher H-2 yield compared to other composition ratios, highlighting the importance of semiconductor composition ratio. Further enhancement of performance was achieved through photo-reduction method, demonstrating improved charge separation and transfer in the ternary composite.
A heterogenous ternary Ni and Ag co-modified g-C3N4 nanocomposite is designed and fabricated using a photoreduction approach for photo-catalytic hydrogen production from methanol-water mixture. Ternary nanocomposite consisting of Ni-Ag co-deposited onto g-C3N4 was successfully fabricated and uniformly distributed, therefore, exhibited strong visible-light absorption and efficient charge carrier separation due to synergistic effect throughout the ternary composite. The nanocomposite with varying amounts of nickel and silver, play an important role to maximize the photoactivity with the optimized 3Ni-1Ag/CN sample delivering H-2 of 2137.5 mu molg(-1)h(-1), which is 16.13, 1.42 and 1.52 folds greater than using CN, 3Ni/CN and 3Ag/CN, respectively. This proves that semiconductor composition ratio is important in achieving a successful p-n junction and efficient charge separation and transfer in the ternary composite. The performance of optimized Ni-Ag/CN was further enhanced using photo-reduction method. The highest H-2 yield of 5740 mu molg(-1) is achieved over the photo-reduced Ni-Ag/CN-R nanocomposite which is 1.25 folds higher than non-photo-reduced composite. This improvement can be accredited to the formation of good p-n junction between the semiconductors in the ternary composite and due to the formation of photo-reduced Ag which acts as electron sinks which leads to improved charge separation. Furthermore, increasing catalyst loading increases the H-2 production rate and methanol-water mixture gave the highest H-2 production rate. The findings of this study would be beneficial for future hydrogen generation and implementation within newer sustainable systems.

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