Tailored synthesis of active reduced graphene oxides from waste graphite: Structural defects and pollutant-dependent reactive radicals in aqueous organics decontamination
Yuxian Wang,Yuxian Wang,Hongbin Cao,Lulu Chen,Chunmao Chen,Xiaoguang Duan,Yongbing Xie,Weiyu Song,Hongqi Sun,Shaobin Wang +9 more
TLDR
In this paper, anode graphite was recovered from a spent lithium ion battery (LIB) and reutilized as a carbon precursor to obtain graphene-based materials, which demonstrated excellent catalytic ozonation activity against organic pollutants removal.Abstract:
Anode graphite was recovered from a spent lithium ion battery (LIB) and reutilized as a carbon precursor to obtain graphene-based materials. Characterization results revealed that impurities were removed from the obtained graphite powder by cleansing processes. The as-synthesized reduced graphene oxide (rGO) from the purified graphite (LIB-rGO) demonstrated excellent catalytic ozonation activity against organic pollutants removal. To probe potential catalytic active sites, LIB-rGOs with different defective levels but similar oxygen contents were synthesized. Catalytic ozonation tests revealed that a higher defective level resulted in a greater catalytic activity. Density functional theory (DFT) calculation further demonstrated that ozone molecules could spontaneously decompose into active oxygen species on graphene structural vacancies and edges, which consolidated the role of defective structure in catalytic ozonation activity. Meanwhile, we discovered the pollutant-structure-dependent behavior of dominant reactive oxygen species (ROS) with the aid of radical scavenging tests and electron paramagnetic resonance (EPR) spectra. For phenolic pollutants vulnerable to direct ozone attacking, superoxide radicals (O2 −) and singlet oxygen (1O2) were found to be responsible ROS, whereas hydroxyl radicals ( OH) were identified as the principle ROS for aliphatic organic pollutants destruction. This study not only put forward a possible way for reutilization of waste LIB anode, but also stepped further for investigating the catalytic ozonation mechanism towards the graphene-based materials including the active sites and the generation of ROS.read more
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Graphene- and CNTs-based carbocatalysts in persulfates activation: Material design and catalytic mechanisms
TL;DR: In this article, a critical review on the recent practical and theoretical development in graphene and carbon nanotubes (CNTs)-based materials as carbocatalysts for the activation of peroxymonosulfate (PMS) and peroxydisulfate(PDS).
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Selective prepared carbon nanomaterials for advanced photocatalytic application in environmental pollutant treatment and hydrogen production
Huan Yi,Danlian Huang,Lei Qin,Guangming Zeng,Cui Lai,Min Cheng,Shujing Ye,Biao Song,Xiaoya Ren,Xueying Guo +9 more
TL;DR: In this article, a review of carbon nanomaterials (CNMs)-modified photocatalysts is presented, which provides a wide view of recent preparation methods, applications, prospects and challenges.
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Insights into the mechanism of nonradical reactions of persulfate activated by carbon nanotubes: Activation performance and structure-function relationship.
TL;DR: The results suggest that CNTs/PS system combined with regeneration based on UV irradiation can be used as an effective alternative process for continuous degradation of recalcitrant aqueous contaminants through the non-radical mechanism.
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Design and application of heterogeneous catalysts as peroxydisulfate activator for organics removal: An overview
Wen-Da Oh,Teik-Thye Lim +1 more
TL;DR: In this article, a review of recent advancement in the development of metal and carbon-based catalysts for peroxydisulfate (PDS) activation is provided. But, the sustainability of metal-based catalyst as PDS activator is contentious due to metal leaching during application, and various strategies have been employed to address this issue.
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Reactive Oxygen Species and Catalytic Active Sites in Heterogeneous Catalytic Ozonation for Water Purification
TL;DR: The catalytic active sites and adsorption behaviors of O3 molecules on the catalyst surface are regarded as the key clues for further elucidating the O3 activation processes, evolution of reactive oxygen species (ROS), organic oxidation pathways.
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