具有微环境调节光催化效率的半导体金属-共价有机框架的室温单相合成。

IF 10.7 2区 材料科学 Q1 CHEMISTRY, PHYSICAL Small Methods Pub Date : 2024-10-11 DOI:10.1002/smtd.202401284
Dongchuang Wu, Qiongshan Zhang, Shiyu Yin, Congying Song, Ning Gu, Dong Wang, Tao Cai, Bin Zhang
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引用次数: 0

摘要

为了提高金属化单体的溶解度和产品的结晶度,金属共价有机框架(MCOFs)通常是通过高温溶解-热合成法制备的。然而,这阻碍了结晶演变信息的直接提取。探索既能合成 MCOFs 又能利用结晶机理的简便室温策略是非常必要的。本文采用一种新颖的单相合成策略,基于平面性可调的 C3v 单体与金属化单体在室温下发生的希夫碱反应,快速制备了三种具有不同微观结构的 MCOFs。根据详细的时变实验和理论计算,首次发现无序结构与晶核之间存在平面度调控和竞争生长关系。单体的高平面度促进了晶核的形成和快速生长,抑制了无定形结构的形成。此外,还研究了微环境对苄胺(BA)选择性光催化偶联的影响。强供体-受体(D-A)MCOF 表现出高效的光催化活性,在 520 纳米光照射下,5 小时内转化率高达 99%,选择性高达 99%。这项工作为高结晶 MCOFs 的规模化高效合成开辟了一条新途径。
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Room-Temperature Single-Phase Synthesis of Semiconducting Metal-Covalent Organic Frameworks With Microenvironment-Tuned Photocatalytic Efficiency.

In order to improve the solubility of metallated monomers and product crystallinity, metal-covalent organic frameworks (MCOFs) are commonly prepared via high-temperature sol-vothermal synthesis. However, it hampers the direct extraction of crystallization evolution information. Exploring facile room-temperature strategies for both synthesizing MCOFs and exploiting the crystallinity mechanism is extremely desired. Herein, by a novel single-phase synthetic strategy, three MCOFs with different microstructure is rapidly prepared based on the Schiff base reaction between planarity-tunable C3v monomers and metallated monomers at room temperature. Based on detailed time-dependent experiments and theoretical calculations, it is found that there is a planarity-tuned and competitive growth relationship between disordered structures and crystal nucleus for the first time. The high planarity of monomers boosts the formation of crystal nucleus and rapid growth, suppressing the forming of amorphous structures. In addition, the microenvironment effect on selective photocatalytic coupling of benzylamine (BA) is investigated. The strong donor-acceptor (D-A) MCOF exhibits efficient photocatalytic activity with a high conversion rate of 99% and high selectivity of 99% in 5 h under the 520 nm light irradiation. This work opens a new pathway to scalable and efficient synthesis of highly crystalline MCOFs.

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来源期刊
Small Methods
Small Methods Materials Science-General Materials Science
CiteScore
17.40
自引率
1.60%
发文量
347
期刊介绍: Small Methods is a multidisciplinary journal that publishes groundbreaking research on methods relevant to nano- and microscale research. It welcomes contributions from the fields of materials science, biomedical science, chemistry, and physics, showcasing the latest advancements in experimental techniques. With a notable 2022 Impact Factor of 12.4 (Journal Citation Reports, Clarivate Analytics, 2023), Small Methods is recognized for its significant impact on the scientific community. The online ISSN for Small Methods is 2366-9608.
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