Janus triple tripods build up a microporous manifold for HgCl2 and I2 uptake

Yonghe He; Mengjiao Huang; Xiangling Deng; Cheng Shengxian; Yan-Lung Wong; Yun-Long Hou; Jun He; Matthias Zeller; Zhengtao Xu

doi:10.1039/c9cc00330d

Janus triple tripods build up a microporous manifold for HgCl₂ and I₂ uptake

Yonghe He, Mengjiao Huang, Xiangling Deng, Cheng Shengxian, Yan-Lung Wong, Yun-Long Hou, Jun He^*, Matthias Zeller, Zhengtao Xu^*

^*Corresponding author for this work

Department of Chemistry

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

13 Citations (Scopus)

Abstract

To boost the design of microporous solids, we integrated a two-faced shape (as in cucurbiturils and cyclodextrins) into the building blocks of framework materials. Reported herein is a planar tritopic carboxyl linker with secondary tripod donors sprouting off both sides at the core region. The two-faced, barrel-like core region imparts a rugged 3D character to the linker architecture, obviating close packing and creating complex-shaped cavities in an Eu(III)-carboxylate network. The merits extend beyond the interesting shape of the multiple tripod: e.g., the two sets of sulfur tripods at the barrel region, together with the triazine center, offer a rich array of donors for adsorbing Hg(II) ions. The microporous solid also removes iodine from vapor and water, and can be easily cycled in column chromatography.

Original language	English
Pages (from-to)	5091-5094
Journal	Chemical Communications
Volume	55
Issue number	35
Online published	23 Mar 2019
DOIs	https://doi.org/10.1039/c9cc00330d
Publication status	Published - 7 May 2019

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title = "Janus triple tripods build up a microporous manifold for HgCl2 and I2 uptake",

abstract = "To boost the design of microporous solids, we integrated a two-faced shape (as in cucurbiturils and cyclodextrins) into the building blocks of framework materials. Reported herein is a planar tritopic carboxyl linker with secondary tripod donors sprouting off both sides at the core region. The two-faced, barrel-like core region imparts a rugged 3D character to the linker architecture, obviating close packing and creating complex-shaped cavities in an Eu(III)-carboxylate network. The merits extend beyond the interesting shape of the multiple tripod: e.g., the two sets of sulfur tripods at the barrel region, together with the triazine center, offer a rich array of donors for adsorbing Hg(II) ions. The microporous solid also removes iodine from vapor and water, and can be easily cycled in column chromatography.",

author = "Yonghe He and Mengjiao Huang and Xiangling Deng and Cheng Shengxian and Yan-Lung Wong and Yun-Long Hou and Jun He and Matthias Zeller and Zhengtao Xu",

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TY - JOUR

T1 - Janus triple tripods build up a microporous manifold for HgCl2 and I2 uptake

AU - He, Yonghe

AU - Huang, Mengjiao

AU - Deng, Xiangling

AU - Shengxian, Cheng

AU - Wong, Yan-Lung

AU - Hou, Yun-Long

AU - He, Jun

AU - Zeller, Matthias

AU - Xu, Zhengtao

PY - 2019/5/7

Y1 - 2019/5/7

N2 - To boost the design of microporous solids, we integrated a two-faced shape (as in cucurbiturils and cyclodextrins) into the building blocks of framework materials. Reported herein is a planar tritopic carboxyl linker with secondary tripod donors sprouting off both sides at the core region. The two-faced, barrel-like core region imparts a rugged 3D character to the linker architecture, obviating close packing and creating complex-shaped cavities in an Eu(III)-carboxylate network. The merits extend beyond the interesting shape of the multiple tripod: e.g., the two sets of sulfur tripods at the barrel region, together with the triazine center, offer a rich array of donors for adsorbing Hg(II) ions. The microporous solid also removes iodine from vapor and water, and can be easily cycled in column chromatography.

AB - To boost the design of microporous solids, we integrated a two-faced shape (as in cucurbiturils and cyclodextrins) into the building blocks of framework materials. Reported herein is a planar tritopic carboxyl linker with secondary tripod donors sprouting off both sides at the core region. The two-faced, barrel-like core region imparts a rugged 3D character to the linker architecture, obviating close packing and creating complex-shaped cavities in an Eu(III)-carboxylate network. The merits extend beyond the interesting shape of the multiple tripod: e.g., the two sets of sulfur tripods at the barrel region, together with the triazine center, offer a rich array of donors for adsorbing Hg(II) ions. The microporous solid also removes iodine from vapor and water, and can be easily cycled in column chromatography.

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U2 - 10.1039/c9cc00330d

DO - 10.1039/c9cc00330d

M3 - RGC 21 - Publication in refereed journal

C2 - 30924482

SN - 1359-7345

VL - 55

SP - 5091

EP - 5094

JO - Chemical Communications

JF - Chemical Communications

IS - 35

ER -