Lanthanide metal-organic frameworks for luminescent sensing and light-emitting applications

Cui, Yuanjing; Chen, Banglin; Qian, Guodong

doi:10.1016/j.ccr.2013.10.023

Cited by 996 publications

(481 citation statements)

References 153 publications

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“…Reprinted with permission from ref [11]. 除上文提到的几类 MOFs 之外, 较经典的 MOFs 材料还有 HKUST-1 [13] 、Bio-MOF 系列 [14] 、PCN 系列 [15] 和 CPO [16] [17] , 碳捕获 [18] , 废水处理 [19] , 燃油净化 [20] , 萃取吸附剂 [21] , 色谱固定相 [6] 等催化反应氢化反应, 光催化反应、烃类, 醇类氧化反应、醇类氧化反应、酯化反应、水解反应 [22] 等传感电化学传感器 [23] 、荧光化学传感器 [24,25] 等生物医学药物负载 [26] 、药物缓释 [27] 等电学电池、超级电容器 [28] 等目前, 针对 MOFs 材料的研究还多集中于实验室的学术研究, 工业大规模的生产和应用案例还相对较少. 但由于 MOFs 材料作为多孔材料优良的性质和极大的应用潜力, 近年来将其投入实际生产应用的实例越来越多 .…”

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Advances of Metal-Organic Frameworks in Adsorption and Separation Applications

He¹,

Li²,

Zhang³

et al. 2017

Acta Chim. Sinica

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As a new type of nano porous material, Metal-Organic Frameworks (MOFs) have been rapidly developed for decades. MOFs are synthesized via the self-assembling combination of inorganic metals and organic ligands, and they have many characteristics superior to the conventional porous materials. The ultrahigh surface area, high porosity, adjustable pore sizes, outstanding thermal and chemical stability enable MOFs to be promising materials for widespread applications. With the deepening of research in recent years, MOFs are successfully applied in diverse fields, such as catalysis, adsorption, separation, and biomedicine imaging, among others. The advances of MOFs used in adsorption and separation are reviewed in this paper, with an emphasis on storage of fuels, carbon capture, membrane separation, liquid-phase adsorption, and chromatographic separation and purification. In addition, the future research directions regarding MOFs in the adsorption and separation field are prospected also.

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Advances of Metal-Organic Frameworks in Adsorption and Separation Applications

He¹,

Li²,

Zhang³

et al. 2017

Acta Chim. Sinica

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“…Ever since their popularization in the last decade, coordination polymers (CPs), also known as metal-organic frameworks (MOFs), have become one of the most prominent branches of inorganic and materials chemistry, in no small part due to the extensive variety of their applications [1][2][3][4][5][6][7][8]. A key factor for the rise of CPs as functional materials has been the development of rational synthetic routes towards the optimization of their application potential [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

A 12-Fold ThSi2 Interpenetrated Network Utilizing a Glycine-Based Pseudopeptidic Ligand

2018

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Abstract:We report the synthesis and characterization of a 3D Cu(II) coordination polymer, [Cu 3 (L 1 ) 2 (H 2 O) 8 ]·8H 2 O (1), with the use of a glycine-based tripodal pseudopeptidic ligand (H 3 L 1 = N,N ,N -tris(carboxymethyl)-1,3,5-benzenetricarboxamide or trimesoyl-tris-glycine). This compound presents the first example of a 12-fold interpenetrated ThSi 2 (ths) net. We attempt to justify the unique topology of 1 through a systematic comparison of the synthetic parameters in all reported structures with H 3 L 1 and similar tripodal pseudopeptidic ligands. We additionally explore the catalytic potential of 1 in the A 3 coupling reaction for the synthesis of propargylamines. The compound acts as a very good heterogeneous catalyst with yields up to 99% and loadings as low as 3 mol %.

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“…Given that, classically, the first scientific efforts were focused on the use of MOF as possible porous materials for gas storage and separation, the study of their luminescent and magnetic properties have been forgotten. However, increasingly, researchers try to obtain multifunctional MOFs with new interesting physical properties that can give another perspective to MOF's applications, such as luminescence sensors due to metal-ligand charge transfer [14]. In recent years, we have designed and synthesized novel Lanthanide-MOFs with different nitrogen derivative ligands with interesting luminescent properties [15] and constructed single-molecule magnets (SMM) based on dysprosium, able to show interesting effective energy barriers [16,17].…”

Section: Introductionmentioning

confidence: 99%

Luminescence and Magnetic Properties of Two Three-Dimensional Terbium and Dysprosium MOFs Based on Azobenzene-4,4′-Dicarboxylic Linker

et al. 2016

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Abstract:We report the in situ formation of two novel metal-organic frameworks based on terbium and dysprosium ions using azobenzene-4,4 1 -dicarboxylic acid (H 2 abd) as ligand, synthesized by soft hydrothermal routes. Both materials show isostructural three-dimensional networks with channels along a axis and display intense photoluminescence properties in the solid state at room temperature. Textural properties of the metal-organic frameworks (MOFs) have been fully characterized although no appreciable porosity was obtained. Magnetic properties of these materials were studied, highlighting the dysprosium material displays slightly frequency-dependent out of phase signals when measured under zero external field and under an applied field of 1000 Oe.

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Lanthanide metal-organic frameworks for luminescent sensing and light-emitting applications

Cited by 996 publications

References 153 publications

Advances of Metal-Organic Frameworks in Adsorption and Separation Applications

Advances of Metal-Organic Frameworks in Adsorption and Separation Applications

A 12-Fold ThSi2 Interpenetrated Network Utilizing a Glycine-Based Pseudopeptidic Ligand

Luminescence and Magnetic Properties of Two Three-Dimensional Terbium and Dysprosium MOFs Based on Azobenzene-4,4′-Dicarboxylic Linker

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