4.7 Article

Green synthesis of copper nanoparticles using green coffee bean and their applications for efficient reduction of organic dyes

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ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2021.105331

关键词

Green synthesis; Green coffee bean (G); Copper nanoparticles (Cu NPs); Dyes reduction; Catalyst bed

资金

  1. Science and Technology Department of Jiangsu Province [BE2017689]
  2. Technology Department of Yangzhou City from Jiangsu Huadong Medical Device Industrial Co., Ltd, China [YZ2019073]

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Low-cost copper nanoparticles synthesized using green chemistry approach show potential in removing toxic organic dyes. The composite of Cu/green coffee bean powder (Cu/GP C) is an efficient and recyclable catalyst for industrial wastewater treatment.
Low-cost catalysts synthesized by the green chemistry approach have increasing potential applications for removing toxic organic dyes in wastewaters due to the expense consideration and the preference for environmentally compatible materials. In this study, copper nanoparticles (Cu NPs) were successfully prepared through a facile and green method, using the solution of green coffee bean extract as a reducing and stabilizing agent and the green synthesis takes only one step. Experimental results show that the synthesized Cu NPs exhibited excellent stability. The average particle sizes of as-synthesized Cu NPs were 5-8 nm. In the process of reducing amido black 10B (AB-10B), methylene blue (MB), and xylenol orange (XO), we found Cu NPs are effectively catalysts when sodium borohydride (NaBH4) was used as the reducing agent. Then, Cu/green coffee bean powder composites (Cu/GP C) were synthesized in one step to overcome the difficulty to recover Cu NPs in aqueous solution and we used Cu/GP C as a simple simulated catalytic bed for rapidly and efficiently reducing the methylene blue for multiple times. Cu/green coffee bean powder composite (Cu/GP C) could be used as an efficient and easily recyclable catalyst for reduction of organic dyes in industrial wastewaters due to its excellent catalytic activity, low-cost, and reusability.

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