Abstract
Pyrolysis of plastic waste (PW), a commercial method of recycling, is currently economically challenging and produces up to 20% by mass valueless pyrolysis ash (PA) as a byproduct. Here, direct, facile upcycling of PW-derived PA into high purity turbostratic flash graphene (tFG) is demonstrated. The tFG displays excellent dispersibility, yielding a concentration of 2.84 mg/mL in aqueous surfactant solution. The tFG was used to fabricate tFG-PVA nanocomposites, and low doses of tFG (0.1%–1%) improve failure strain by 15%–30% when compared to the samples of neat PVA. Further, the addition of tFG to PVA films showed decreased hydrophilic interactions, increasing the water contact angle by 235% and adsorbing 500% less water than neat PVA. The tFG was also added to Portland cement paste as well as concrete, and exhibited 43% and 25% increases in compressive strength, respectively. The tFG is used directly in both composite applications, requiring no purification or chemical functionalization, unlike many other products used in nanocomposites.
Original language | English |
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Pages (from-to) | 430-438 |
Number of pages | 9 |
Journal | Carbon |
Volume | 174 |
DOIs | |
State | Published - Apr 15 2021 |
Externally published | Yes |
Funding
K.M.W. and J.L.B. acknowledge the National Science Foundation Graduate Research Fellowship Program for graciously providing financial support. The Air Force Office of Scientific Research ( FA9550-19-1-0296 ) and the DOE-NETL ( DE-FE0031794 ) funded this work. Dr Bo Chen assisted with XPS analysis.
Keywords
- Flash joule heating
- Plastic waste
- Pyrolysis ash
- Turbostratic flash graphene
- Upcycle