Preparation and characterization of electrode from annealed nano-diamond particles with boric acid for anodic oxidation process

Preparation and characterization of electrode from annealed nano-diamond particles with boric acid for anodic oxidation process

This work is reported the incorporation of boron on diamond particles by annealing process using boric acid as boron source at different temperatures 700, 900, and 1100 °C. Moreover, the electrodes were prepared from pristine diamond (P-ND) and annealed diamond particles (A-ND). Raman, XRD, and FTIR...

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Veröffentlicht in:Electrochimica acta 2020-12, Vol.362, p.137221, Article 137221
Hauptverfasser: Ajeel, Mohammed A., Mahdi, Rahman Ismael, Aroua, Mohamed Kheireddine Taeib, Abd Majid, WH
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Sprache:eng
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2-Chlorophenol degradation
Annealing
Annealing treatment
Anodes
Anodizing
Boron
Diamond
Diamonds
Doping
Electrochemical oxidation
Electrodes
Knives
Nanostructure
Ortho-chlorophenol
Oxidation
Pollutants
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container_issue
container_start_page 137221
container_title Electrochimica acta
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creator Ajeel, Mohammed A.
Mahdi, Rahman Ismael
Aroua, Mohamed Kheireddine Taeib
Abd Majid, WH
description This work is reported the incorporation of boron on diamond particles by annealing process using boric acid as boron source at different temperatures 700, 900, and 1100 °C. Moreover, the electrodes were prepared from pristine diamond (P-ND) and annealed diamond particles (A-ND). Raman, XRD, and FTIR techniques were used to investigate the effect of doping boron in diamond particles. Analysis of the results showed that the boron doping in diamond particles accord at 1100 °C. Cyclic voltammeter and impedance techniques were used to characterize the diamond anode properties after (P-ND) and before (A-ND) annealing treatment. A-ND electrode demonstrated high oxidation power which is suitable for anodic oxidation process. Moreover, reactivity of A-ND anode was higher than that of P-ND anode as a consequence of the presence of boron in the diamond particles of A-ND electrode. 2-chlorophenol was selected as pollutant to investigate the performance of A-ND anode for electro-degradation treatment. The result shows the removal rate of 2-chlorophenol attained 98% after 6 h.
doi_str_mv 10.1016/j.electacta.2020.137221
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Moreover, the electrodes were prepared from pristine diamond (P-ND) and annealed diamond particles (A-ND). Raman, XRD, and FTIR techniques were used to investigate the effect of doping boron in diamond particles. Analysis of the results showed that the boron doping in diamond particles accord at 1100 °C. Cyclic voltammeter and impedance techniques were used to characterize the diamond anode properties after (P-ND) and before (A-ND) annealing treatment. A-ND electrode demonstrated high oxidation power which is suitable for anodic oxidation process. Moreover, reactivity of A-ND anode was higher than that of P-ND anode as a consequence of the presence of boron in the diamond particles of A-ND electrode. 2-chlorophenol was selected as pollutant to investigate the performance of A-ND anode for electro-degradation treatment. 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Moreover, the electrodes were prepared from pristine diamond (P-ND) and annealed diamond particles (A-ND). Raman, XRD, and FTIR techniques were used to investigate the effect of doping boron in diamond particles. Analysis of the results showed that the boron doping in diamond particles accord at 1100 °C. Cyclic voltammeter and impedance techniques were used to characterize the diamond anode properties after (P-ND) and before (A-ND) annealing treatment. A-ND electrode demonstrated high oxidation power which is suitable for anodic oxidation process. Moreover, reactivity of A-ND anode was higher than that of P-ND anode as a consequence of the presence of boron in the diamond particles of A-ND electrode. 2-chlorophenol was selected as pollutant to investigate the performance of A-ND anode for electro-degradation treatment. 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subjects 2-Chlorophenol degradation
Annealing
Annealing treatment
Anodes
Anodizing
Boron
Diamond
Diamonds
Doping
Electrochemical oxidation
Electrodes
Knives
Nanostructure
Ortho-chlorophenol
Oxidation
Pollutants
title Preparation and characterization of electrode from annealed nano-diamond particles with boric acid for anodic oxidation process
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