Boosted Photoreforming of Plastic Waste via Defect-Rich NiPS 3 Nanosheets
The University of Adelaide · Hubei University of Arts and Science · +1 more institution
Abstract
Sustainable conversion of plastic waste to mitigate environmental threats and reclaim waste value is important. Ambient-condition photoreforming is practically attractive to convert waste to hydrogen (H2); however, it has poor performance because of mutual constraint between proton reduction and substrate oxidation. Here, we realize a cooperative photoredox using defect-rich chalcogenide nanosheet-coupled photocatalysts, e.g., d-NiPS3/CdS, to give an ultrahigh H2 evolution of ∼40 mmol gcat–1 h–1 and organic acid yield up to 78 μmol within 9 h, together with excellent stability beyond 100 h in photoreforming of commercial waste plastic poly(lactic acid) and poly(ethylene terephthalate). Significantly, these…
Citation impact
- FWCI
- 13.02
- Percentile
- 100%
- References
- 58
Authors
8- SZShuai Zhang
The University of Adelaide
- HLHaobo Li
The University of Adelaide
- LWLei Wang
Hubei University of Arts and Science
- JLJiandang Liu
University of Science and Technology of China
- GLGuijie Liang
Hubei University of Arts and Science
Topics & keywords
- Nanosheet
- Chemistry
- Substrate (aquarium)
- Plastic waste
- Chemical engineering
- Yield (engineering)
- Organic chemistry
- Waste management