One of the major reasons for studying chemical kinetics is to use measurements of the macroscopic properties of a system, such as the rate of change in the concentration of reactants or products with time. 95-56-7, Name is 2-Bromophenol, formurla is C6H5BrO. In a document, author is Zhang, Yan, introducing its new discovery. Category: bromides-buliding-blocks.
The photochromic behaviour of two viologen salts modulated by the distances between the halide anions and the cationic N atoms of viologen
In recent years, viologens and their derivatives have received much attention due to their various potential applications, ranging from electro- or photochromic devices to clean energy. Generally, viologen compounds exhibit a colour change upon being subjected to an external stimulus. However, the chromic mechanism is still ambiguous, because there are many electron-transfer pathways for a chromic compound that need to be considered. Thus, exploring new chromic viologen-based compounds with one pathway should be important and meaningful. In this article, two new viologen-based derivatives, namely 1-(2cyanobenzyl)-4,4′-bipyridinium chloride (o-CBbpy-Cl), C18H14N3+ Cl (1), and 1-(2-cyanobenzyl)-4,40-bipyridinium bromide (o-CBbpy center dot Br), C18H14N3+ center dot Br-(2), have been synthesized and characterized. Interestingly, both isomorphic compounds possess only one electron-transfer pathway, in which 1-(2-cyanobenzyl)- 4,4′-bipyridinium cations (o-CBbpy) and halide anions are employed as electron donors and acceptors, respectively. Salts 1 and 2 consist of o-CBbpy cations involved in pi-pi interactions and hydrogen-bond interactions, and halide anions weakly hydrogen bonded to the viologen cations. The salts show different photoresponsive characteristics under identical conditions, which should be mainly related to the distances between the halide cations and the cationic N atoms of o-CBbpy but not the electronegativities of the halogen atoms. These results should not only help in understanding that the distance of the electron-transfer pathway plays an important role in viologen-based photochromism, but should also guide the design and synthesis of additional photochromic materials.
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