Tandem Postsynthetic Modification of a Metal–Organic Framework by Thermal Elimination and Subsequent Bromination: Effects on Absorption Properties and Photoluminescence

Sun, Feng; Yin, Zheng; Wang, Que-Qiao; Sun, Di; Zeng, Ming‐Hua; Kurmoo, Mohamedally

doi:10.1002/ange.201300821

Cited by 24 publications

(10 citation statements)

References 40 publications

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“…Silver-based zeolites, metal-organic frameworks (MOFs), and covalently linked porous organic polymers (POPs) have been developed [2][3][4][5][6][7][8][9][10][11]. For example, Cooper et al described a strategy for efficient removal of iodine vapor using porous organic crystals [12].…”

Section: Introductionmentioning

confidence: 99%

Capture and reversible storage of volatile iodine by porous carbon with high capacity

et al. 2015

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The capture of iodine using porous materials has attracted considerable interest. In this work, porous carbon with a special surface area of 1973 m 2 g -1 was prepared by simple activation method. As an adsorbent, the adsorption capacity of the resulting porous carbon could reach up to 376 wt% for iodine vapor and 460 mg g -1 for iodine uptake in cyclohexane, which both are among the highest values reported up to now. Taking advantages of its high special surface area, easy preparation, low cost, as well as good regeneration, the resulting porous carbon shows great potential in the removal of radioactive iodine at different states.

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Section: Introductionmentioning

confidence: 99%

Capture and reversible storage of volatile iodine by porous carbon with high capacity

et al. 2015

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“…Thus, a highly effective and fast technique to detect trace amount of Fe 3+ over other metal ions is of much concern. Nowadays, luminescent coordination polymers (CPs) with open coordination sites have attracted much attention, as these can efficiently interact with various metal ions and hence offer a useful methodology for the development of luminescence sensors and heterogeneous catalysts [16,17,18,19,20]. The incorporation of carboxylate groups is an effective way to construct CPs with open coordination sites [21].…”

Section: Introductionmentioning

confidence: 99%

Two Chemically Stable Cd(II) Polymers as Fluorescent Sensor and Photocatalyst for Aromatic Dyes

Wang

et al. 2018

Polymers

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Two new 2D Cd(II)-based coordination polymers (CPs), viz. [Cd2(H2L)2(2,2’-bipy)2] (1) and [Cd(L)0.5(phen)·0.5H2O] (2), have been constructed using ethylene glycol ether bridging tetracarboxylate ligand 5,5′(4,4′-phenylenebis(methyleneoxy)) diisophthalic acid (H4L). Both CPs behaved as profound fluorescent sensor for Fe3+ ion and nitro-aromatics (NACs), specifically 2,4,6-trinitrophenol (TNP). The stability at elevated temperature and photocatalytic behaviors of both 1 and 2 for photo-decomposition of aromatic dyes have also been explored. An attempt has been made to explore the plausible mechanism related with the decrease in fluorescence intensity of 1 and 2 in presence of NACs using theoretical calculations. Additionally, the probable mechanism of photo catalysis by 1 and 2 to photo-degrade aromatic dyes has been explained using density of states (DOS) calculations.

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“…7 Therefore, 1H-benzoimidazole-5-carboxylic acid (Hbic), combining the virtues of both benzimidazole and carboxylic acid, has been selected as the building block due to the special metal-coordinating ability (Chart S1 †). 8 Though some coordination polymers with Hbic have been reported, they have rarely been used in conjunction with other ligand to construct frameworks. 9 In the course of ongoing studies on transition metal compounds of carboxylate-aromatic amine or pyridine ligands, 10 we introduced exible H 2 adp and rigid Hbic and its derivates in the construction of the new coordination polymers.…”

Section: Introductionmentioning

confidence: 99%

Effects of substituent groups on the structures and luminescence properties of 2D/3D Cd^II complexes with mixed rigid and flexible carboxylate ligands

Ren

Yin

et al. 2014

RSC Adv.

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Tandem Postsynthetic Modification of a Metal–Organic Framework by Thermal Elimination and Subsequent Bromination: Effects on Absorption Properties and Photoluminescence

Cited by 24 publications

References 40 publications

Capture and reversible storage of volatile iodine by porous carbon with high capacity

Capture and reversible storage of volatile iodine by porous carbon with high capacity

Two Chemically Stable Cd(II) Polymers as Fluorescent Sensor and Photocatalyst for Aromatic Dyes

Effects of substituent groups on the structures and luminescence properties of 2D/3D Cd^II complexes with mixed rigid and flexible carboxylate ligands

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Tandem Postsynthetic Modification of a Metal–Organic Framework by Thermal Elimination and Subsequent Bromination: Effects on Absorption Properties and Photoluminescence

Cited by 24 publications

References 40 publications

Capture and reversible storage of volatile iodine by porous carbon with high capacity

Capture and reversible storage of volatile iodine by porous carbon with high capacity

Two Chemically Stable Cd(II) Polymers as Fluorescent Sensor and Photocatalyst for Aromatic Dyes

Effects of substituent groups on the structures and luminescence properties of 2D/3D CdII complexes with mixed rigid and flexible carboxylate ligands

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Effects of substituent groups on the structures and luminescence properties of 2D/3D Cd^II complexes with mixed rigid and flexible carboxylate ligands