Stable Ni(II)-based metal-organic framework nanoparticle for efficient photocatalytic C-N coupling reaction

IF 5.1 3区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nanoscale Pub Date : 2025-09-30 DOI:10.1039/d5nr03175c

Yuhao Wang, Jinping Zhong, Yikui Zeng, Fada Feng, Dengfeng Yan, Xudong Li

引用次数: 0

Abstract

Herein, we successfully obtained a two-dimensional (2D) Ni(II) metal–organic framework with [Ni2(L)(H2O)8]n (JYU-1) by using Ni(NO3)2·6H2O and 5,5'-(phenazine-5,10-diyl)diisophthalic acid (H4L), which were staggered in an ABAB arrangement. The 2D structure layers led to the interpenetration between layers to form a 2D + 2D → three-dimensional (3D) interdigitation frame. JYU-1 was found to exhibit activity for C-N coupling reaction under visible light. The peeling of JYU-1 led to the formation of JYU-1-NP with nanoparticle morphology, which exhibited improved activity for the C-N coupling reaction due to the exposure of more accessible Ni(II) units as well as a lower charge-transfer resistance. This study provides a new and efficient strategy for synthesis of benzoamine compounds and demonstrates the important role of morphology of the catalyst on its performance.

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用于高效光催化C-N偶联反应的稳定Ni（II）基金属有机骨架纳米颗粒

本文以Ni(NO3)2·6H2O和5,5'-（吩嗪-5,10-二烷基）二对苯二甲酸（H4L）为原料，以ABAB排列交错，成功地获得了具有[Ni2(L)(H2O)8]n （ju -1）的二维（2D） Ni（II）金属有机骨架。二维结构层导致层间互穿，形成二维+二维→三维（3D）互指框架。JYU-1在可见光下表现出C-N偶联反应的活性。JYU-1的剥离导致形成具有纳米颗粒形态的JYU-1- np，由于暴露了更容易接近的Ni（II）单元以及更低的电荷转移电阻，JYU-1- np表现出更高的C-N偶联反应活性。本研究为苯胺类化合物的合成提供了一种新的、高效的策略，并证明了催化剂的形态对其性能的重要作用。

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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来源期刊

Nanoscale CHEMISTRY, MULTIDISCIPLINARY-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

12.10

自引率

3.00%

发文量

1628

审稿时长

1.6 months

期刊介绍： Nanoscale is a high-impact international journal, publishing high-quality research across nanoscience and nanotechnology. Nanoscale publishes a full mix of research articles on experimental and theoretical work, including reviews, communications, and full papers.Highly interdisciplinary, this journal appeals to scientists, researchers and professionals interested in nanoscience and nanotechnology, quantum materials and quantum technology, including the areas of physics, chemistry, biology, medicine, materials, energy/environment, information technology, detection science, healthcare and drug discovery, and electronics.