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Low-temperature dechlorination of polyvinyl chloride (PVC) for production of H 2 and carbon materials using liquid metal catalysts.

Felipe Polo-GarzonZili WuYuanyuan LiJunyan ZhangXinbin YuElena ToupsEddie Lopez-HonoratoJoshua T DamronJeffrey C FosterYongqiang ChengLuke L DaemenAnibal J Ramirez-CuestaHarry M Meyer
Published in: Science advances (2024)
Polyvinyl chloride (PVC) is ubiquitous in everyday life; however, it is not recycled because it degrades uncontrollably into toxic products above 250°C. Therefore, it is of interest to controllably dechlorinate PVC at mild temperatures to generate narrowly distributed carbon materials. We present a catalytic route to dechlorinate PVC (~90% reduction of Cl content) at mild temperature (200°C) to produce gas H 2 (with negligible coproduction of corrosive gas HCl) and carbon materials using Ga as a liquid metal (LM) catalyst. A LM was used to promote intimate contact between PVC and the catalytic sites. During dechlorination of PVC, Cl is sequestrated in the carbonaceous solid product. Later, chlorine is easily removed with an acetone wash at room temperature. The Ga LM catalyst is reusable, outperforms a traditional supported metal catalyst, and successfully converts (untreated) discarded PVC pipe.
Keyphrases
  • room temperature
  • ionic liquid
  • pet ct
  • highly efficient
  • reduced graphene oxide
  • metal organic framework
  • crystal structure