Polo-Garzon Felipe, Wu Zili, Li Yuanyuan, Zhang Junyan, Yu Xinbin, Toups Elena, Lopez-Honorato Eddie, Damron Joshua T, Foster Jeffrey C, Cheng Yongqiang, Daemen Luke L, Ramirez-Cuesta Anibal J, Meyer Harry M
Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831 (USA).
Center for Nanophase Materials Sciences, Oak Ridge National Laboratory, Oak Ridge, TN 37831 (USA).
Sci Adv. 2024 Jul 26;10(30):eadm9963. doi: 10.1126/sciadv.adm9963. Epub 2024 Jul 24.
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 (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.
聚氯乙烯(PVC)在日常生活中无处不在;然而,它无法被回收利用,因为在250°C以上它会 uncontrollably 降解为有毒产物。因此,在温和温度下可控地对PVC进行脱氯以生成分布狭窄的碳材料是很有意义的。我们展示了一种催化途径,可在温和温度(200°C)下对PVC进行脱氯(Cl含量降低约90%),以使用Ga作为液态金属(LM)催化剂产生气体H(腐蚀性气体HCl的共产量可忽略不计)和碳材料。使用液态金属来促进PVC与催化位点之间的紧密接触。在PVC脱氯过程中,Cl被固定在含碳固体产物中。之后,在室温下用丙酮洗涤即可轻松除去氯。Ga液态金属催化剂可重复使用,性能优于传统负载型金属催化剂,并成功转化了(未处理的)废弃PVC管。
