Mechanochromism triggered fluorescent color switching among polymorphs of a natural fluorescence pigment

A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which...

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Published in	Chemical communications (Cambridge, England) Vol. 52; no. 75; pp. 11288 - 11291
Main Authors	Li, Meiqi, Zhang, Qi, Wang, Jian-Rong, Mei, Xuefeng
Format	Journal Article
Language	English
Published	England 13.09.2016
Subjects	chemical reactions color Colors (materials) emodin Fluorescence Hydrates Pigments Security Switching synthesis
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Abstract	A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which indicates its potential application in mechano-sensors and security papers. The solid-state study of emodin demonstrates the feasibility of building new MCL systems via controlling the solid-state transition of natural fluorescent dyes.
AbstractList	A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which indicates its potential application in mechano-sensors and security papers. A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which indicates its potential application in mechano-sensors and security papers.A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which indicates its potential application in mechano-sensors and security papers. A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and the amorphous state of emodin, are successfully synthesized. These solid forms exhibit significantly different fluorescence properties, which indicates its potential application in mechano-sensors and security papers. The solid-state study of emodin demonstrates the feasibility of building new MCL systems via controlling the solid-state transition of natural fluorescent dyes.
Author	Mei, Xuefeng Zhang, Qi Wang, Jian-Rong Li, Meiqi
AuthorAffiliation	Chinese Academy of Sciences Shanghai Institute of Materia Medica Pharmaceutical Analytical & Solid-State Chemistry Research Center University of Chinese Academy of Sciences
AuthorAffiliation_xml	– sequence: 0 name: Pharmaceutical Analytical & Solid-State Chemistry Research Center – sequence: 0 name: University of Chinese Academy of Sciences – sequence: 0 name: Chinese Academy of Sciences – sequence: 0 name: Shanghai Institute of Materia Medica
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/27722493$$D View this record in MEDLINE/PubMed
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Snippet	A naturally occurring pigment emodin is reported here as an example to extend mechanochromic luminescent material systems. Three polymorphs, two hydrates and...
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SubjectTerms	chemical reactions color Colors (materials) emodin Fluorescence Hydrates Pigments Security Switching synthesis
Title	Mechanochromism triggered fluorescent color switching among polymorphs of a natural fluorescence pigment
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