A microporous metal–organic framework with open metal sites for selective sensing Fe3+, CrO42- and nitrobenzene | Zendy

F. M. Wang | Zendy; R. Wang | Zendy; Yutong Han | Zendy; S. Y. Li | Zendy; Jian-Hui Man | Zendy; Yanyi He | Zendy; B. H. Li | Zendy

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A microporous metal–organic framework with open metal sites for selective sensing Fe3+, CrO42- and nitrobenzene

Author(s) -

F. M. Wang,

R. Wang,

Yutong Han,

S. Y. Li,

Jian-Hui Man,

Yanyi He,

B. H. Li

Publication year - 2017

Publication title -

bulletin of the chemical society of ethiopia

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.288

H-Index - 25

eISSN - 1726-801X

pISSN - 1011-3924

DOI - 10.4314/bcse.v31i2.10

Subject(s) - nitrobenzene , chemistry , luminescence , microporous material , quenching (fluorescence) , nitro , metal organic framework , chromate conversion coating , metal , inorganic chemistry , organic chemistry , adsorption , chromium , fluorescence , catalysis , physics , alkyl , optoelectronics , quantum mechanics

A 3D network with the (42·6·83) topology of metal-organic framework possessing an open 1D channel was synthesized by rigid and planar tetracarboxylic acid 5,5’-(1H-2,3,5-triazole-1,4-diyl)diisophthalic acid (H4L). The luminescent properties of 1 shows highly sensitive response to nitrobenzene, Fe3+ and CrO42- through luminescence quenching effects, making it a promising luminescent sensor for nitro aromatic compounds, Fe3+ and CrO42-

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