Blazquez-Martín Agustín, Verde-Sesto Ester, Arbe Arantxa, Pomposo José A
Centro de Física de Materiales (CSIC-UPV/EHU)-Materials Physics Center MPC, P° Manuel de Lardizabal 5, E-20018, Donostia, Spain.
IKERBASQUE-Basque Foundation for Science, Plaza Euskadi 5, E-48009, Bilbao, Spain.
Angew Chem Int Ed Engl. 2023 Nov 13;62(46):e202313502. doi: 10.1002/anie.202313502. Epub 2023 Oct 12.
We perform the conversion of a commodity plastic of common use in pipes, window frames, medical devices, flexible hoses, etc. like polyvinyl chloride (PVC) to single-chain nanoparticles (SCNPs). SCNPs are versatile, protein-mimetic soft nano-objects of growing interest for catalysis, sensing, and nanomedicine, among other uses. We demonstrate that the metamorphosis process -as induced through metal-free click chemistry- leads to well-defined, uniform SCNPs that are stable during storage in the solid state for months. All the conversion process (from PVC isolation to PVC-SCNPs synthesis) can be run in a green, dipolar aprotic solvent and involving, when required, a simple mixture of ethanol and water (1/1 vol.) as non-solvent. The resulting PVC-SCNPs are investigated as recyclable, metalloenzyme-mimetic catalysts for several representative Cu(II)-catalyzed organic reactions. The method could be valid for the metamorphosis and valorization of other commodity plastics in which it is feasible to install azide functional groups in their linear polymer chains.
我们将聚氯乙烯(PVC)这种常用于管道、窗框、医疗设备、柔性软管等的商用塑料转化为单链纳米颗粒(SCNP)。SCNP是一种多功能的、模拟蛋白质的柔软纳米物体,在催化、传感和纳米医学等诸多应用领域越来越受关注。我们证明,通过无金属点击化学诱导的转变过程可生成结构明确、均匀的SCNP,其在固态下储存数月仍保持稳定。整个转化过程(从PVC分离到PVC-SCNP合成)都可以在绿色的偶极非质子溶剂中进行,必要时还可加入乙醇和水的简单混合物(1/1体积比)作为非溶剂。所得的PVC-SCNP被研究用作几种代表性的铜(II)催化有机反应的可回收、模拟金属酶催化剂。该方法对于其他商用塑料的转变和增值可能是有效的,前提是在其线性聚合物链中安装叠氮官能团是可行的。
