Pyrolysis-temperature depended electron donating and mediating mechanisms of biochar for Cr(VI) reduction

[Display omitted] •Electron donating capacity of biochar decreased and then increased with pyrolysis temperature.•Electron donating moiety changed from −OH to functional group with aromatic structure.•The mediating capability of biochar for Cr(VI) reduction increased with pyrolysis temperature.•The...

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Bibliographic Details
Published in:Journal of hazardous materials 2020-04, Vol.388, p.121794, Article 121794
Main Authors: Xu, Zibo, Xu, Xiaoyun, Zhang, Yue, Yu, Yulu, Cao, Xinde
Format: Article
Language:English
Subjects:
Biochar
Charcoal - chemistry
Chromium - analysis
Electron donor
Electron mediator
Electron Transport
Environmental Pollutants - analysis
Hexavalent chromium
Hot Temperature
Pyrolysis
Pyrolysis-temperature depended mechanisms
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Summary:[Display omitted] •Electron donating capacity of biochar decreased and then increased with pyrolysis temperature.•Electron donating moiety changed from −OH to functional group with aromatic structure.•The mediating capability of biochar for Cr(VI) reduction increased with pyrolysis temperature.•The conductivity of biochar was the dominant factor for electron mediating. Biochar could be involved in environmentally relevant redox reactions, and their redox-active moieties may change with pyrolysis temperature. In this study, pyrolysis-temperature depended electron donating and mediating ability of biochar for Cr(VI) reduction were evaluated. All biochar derived from peanut shell at 400−800 °C effectively reduced Cr(VI) into Cr(III), and the reduction capability decreased as the pyrolysis temperature increased (400−600 °C), and then increased (600−800 °C). The electron donating moieties transformed from the −OH functional groups at lower pyrolysis temperature (600 °C). Biochar could mediate the reduction of Cr(VI) by lactate, with the reduction rates of Cr(VI) increased up to 16.3 and 345 times that by either biochar or lactate alone, respectively. The redox ability of biochar was the premise, but its conductivity was the dominant factor, for the mediating reduction of Cr(VI). The mediation capability of biochar increased with elevated pyrolysis-temperature due to its increased conductivity related to the growth of conjugated clusters and carbon defects. Our results indicated that pyrolysis-temperature affects the formation of functional groups and conjugated carbon structure of biochars which have a distinguishable influence on the electron donating and mediating ability for Cr(VI) reduction.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2019.121794