Porous Polyisothiocyanurates for Selective Palladium Recovery and Heterogeneous Catalysis

ChemRN: Metals & Alloys (Topic) Pub Date : 2022-06-01 DOI:10.2139/ssrn.3924612

K. Song, T. Ashirov, S. N. Talapaneni, Ali Coskun

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引用次数: 15

Abstract

Palladium (Pd) is an indispensable metal due to its wide range of industrial applications. Pd refining, however, is an extremely energy intensive process with a serious environmental impact. Thus, the selective recovery of Pd from secondary sources i.e., spent automotive catalytic converters, is rather important. Heterogeneous sorbents are promising candidates primarily due to their reusability, however, the simultaneous realization of high adsorption capacity, fast adsorption kinetics, high selectivity still remain a critical challenge. Here, we report the synthesis of porous polyisothiocyanurates, named Covalent Isothiocyanurate Frameworks (CITCFs), bearing in-situ generated thiourea moieties as binding sites for Pd. High surface area of CITCFs, 1589 m2 g-1, along with the presence of abundant sulfur atoms within a hierarchically porous network enabled an exceptional Pd(II) uptake capacity of 909.1 mg g-1, fast kinetics, stable adsorption over a wide pH range and selective Pd(II) recovery from waste water conditions. Moreover, the reduction of recovered Pd(II) within CICTFs led to a highly efficient heterogeneous catalysts for the Suzuki-Miyaura crosscoupling reaction.

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多孔聚异硫氰脲酸盐用于钯的选择性回收和多相催化

钯(Pd)具有广泛的工业用途，是一种不可缺少的金属。然而，钯精炼是一个能源密集的过程，对环境有严重影响。因此，从二次源即废旧汽车催化转化器中选择性回收Pd是相当重要的。非均相吸附剂因其可重复使用而成为很有前途的吸附剂，但同时实现高吸附容量、快速吸附动力学和高选择性仍然是一个关键的挑战。在这里，我们报道了多孔聚异硫氰脲酸酯的合成，称为共价异硫氰脲酸酯框架(CITCFs)，承载原位生成的硫脲基团作为Pd的结合位点。高表面积的citcf (1589 m2 g-1)，以及在分层多孔网络中大量硫原子的存在，使其具有909.1 mg g-1的Pd(II)吸收能力，快速动力学，在宽pH范围内稳定吸附，以及从废水中选择性回收Pd(II)的条件。此外，回收的Pd(II)在cictf内的还原导致了Suzuki-Miyaura交偶反应的高效非均相催化剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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