PET-derived bis(2-hydroxyethyl) terephthalate as a new linker source for solvent-free and hydrothermal synthesis of BDC-based MOFs

IF 8.2 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Today Nano Pub Date : 2024-02-08 DOI:10.1016/j.mtnano.2024.100459

Philip Anggo Krisbiantoro , Tzu-Jung Kuo , Yu-Chia Chang , Weisheng Liao , Jih-Peng Sun , Chun-Yen Yang , Yuichi Kamiya , Fa-Kuen Shieh , Chia-Chin Chen , Kevin C.-W Wu

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Abstract

To date, the high cost of organic linkers and the energy-consuming synthesis processes remain two of the main challenges for the commercialization of metal-organic frameworks (MOFs). Herein, we demonstrate that polyethylene terephthalate (PET)-derived bis(2-hydroxyethyl) terephthalate (BHET) is a new linker source that enables the facile solvent-free and hydrothermal synthesis of BDC-based MOFs. Using BHET as a linker source, UiO-66(Zr) was rapidly synthesized via a solvent-free “grind and bake” technique, while Ca-BDC and Ba-BDC were easily obtained by using hydrothermal synthesis. We found that the hydrolysis of BHET to terephthalate anion (BDC²⁻) over proton produced from the hydrolysis/clustering of Zr precursor and hydroxyl anion produced from the dissolution of M(OH)₂ (M = Ca or Ba) was the key to the crystal growth of solvent-free synthesized UiO-66(Zr) and hydrothermally synthesized M-BDC (M = Ca or Ba), respectively. While the as-synthesized UiO-66(Zr) was highly active for the esterification of lactic acid (LA) with ethanol (EtOH), Ca-BDC and Ba-BDC exhibited remarkable electrochemical performance for lithium storage. Our strategy provides a major step towards realizing the idea of a more facile, green, and low-cost synthesis of PET-derived MOFs compared to prior arts applicable for catalysis and energy applications.

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将 PET 衍生的对苯二甲酸二（2-羟乙基）酯作为无溶剂和水热合成基于 BDC 的 MOF 的新链接源

迄今为止，有机连接料的高成本和耗能的合成工艺仍是金属有机框架（MOFs）商业化的两大挑战。在本文中，我们证明了聚对苯二甲酸乙二醇酯（PET）衍生的对苯二甲酸二（2-羟乙基）酯（BHET）是一种新的链接剂来源，可实现基于 BDC 的 MOFs 的无溶剂和水热合成。使用 BHET 作为连接剂源，通过无溶剂 "研磨和烘烤 "技术快速合成了 UiO-66(Zr)，而通过水热合成法则轻松获得了 Ca-BDC 和 Ba-BDC。我们发现，无溶剂合成的 UiO-66(Zr)和水热合成的 M-BDC（M = Ca 或 Ba）分别在 Zr 前驱体水解/簇生产生的质子和 M(OH)2（M = Ca 或 Ba）溶解产生的羟基阴离子上水解成对苯二甲酸阴离子（BDC2-）是晶体生长的关键。新合成的 UiO-66(Zr)在乳酸（LA）与乙醇（EtOH）的酯化反应中具有很高的活性，而 Ca-BDC 和 Ba-BDC 在锂存储方面则表现出显著的电化学性能。与之前适用于催化和能源应用的技术相比，我们的策略为实现更简便、绿色和低成本合成 PET 衍生 MOFs 的想法迈出了重要一步。

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来源期刊

Materials Today Nano Multiple-

CiteScore

11.30

自引率

3.90%

发文量

130

审稿时长

31 days

期刊介绍： Materials Today Nano is a multidisciplinary journal dedicated to nanoscience and nanotechnology. The journal aims to showcase the latest advances in nanoscience and provide a platform for discussing new concepts and applications. With rigorous peer review, rapid decisions, and high visibility, Materials Today Nano offers authors the opportunity to publish comprehensive articles, short communications, and reviews on a wide range of topics in nanoscience. The editors welcome comprehensive articles, short communications and reviews on topics including but not limited to: Nanoscale synthesis and assembly Nanoscale characterization Nanoscale fabrication Nanoelectronics and molecular electronics Nanomedicine Nanomechanics Nanosensors Nanophotonics Nanocomposites