Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 11, Issue 31, Pages 27846-27853Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.9b07765
Keywords
oxidized carbon black; oxygen functional groups; two-electron oxygen reduction reaction; H2O2 production; electrochemical advanced oxidation processes
Funding
- Demonstration Project of the National Engineering Laboratory for Site Remediation Technologies [NEL-SRT201701]
- National Natural Science Foundation of China [41672236]
- Young Elite Scientist Sponsorship Program by CAST [2015QNRC001]
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Carbon black (CB) has a high conductivity and a large surface area, which are the basis of an excellent electrocatalyst. However, CB itself is usually less active or even inactive toward two-electron oxygen reduction reaction (2e(-) ORR) due to the absence of highly active functional groups with low oxygen content. To activate commercial CB for 2e(-) ORR, oxygen-containing functional groups were introduced onto the CB surface by a simple air calcination method. After the oxidation treatment at 600 degrees C (CB600), the oxygen content increased from the initial 1.17 +/- 0.15 to 4.08 +/- 0.60%, leading to a dramatic increase of the cathodic current from only -8.1 mA (CB) to -117.6 mA (CB600). The air cathode made of CB600 achieved the maximum H2O2 production of 517.7 +/- 2.4 mg L-1 within 30 min, resulting in the removal of similar to 91.1% rhodamine B in 2 min and an effective mineralization of similar to 76.3% in an electro-Fenton reactor. This performance was much better than that obtained using the CB catalyst (65.3 +/- 5.6 mg L-1 H2O2 production, and similar to 20.3% mineralization). This excellent activity of CB600 toward 2e(-) ORR was greatly improved by the introduction of O=C-OH and C-O-C groups. The successful improvement of the 2(e-)ORR activity of CB using air calcination enables its practical application in electrochemical advanced oxidation processes.
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