36429-14-8Relevant articles and documents
Synthesis, characterization, and UV–visible study of some new photochromic formyl-containing 1′,3′,3′-trimethylspiro[chromene-2,2′-indoline] derivatives
Sepehr, Zeinalabedin,Nasr-Isfahani, Hossein,Mahdavian, Ali Reza,Amin, Amir Hossein
, p. 3061 - 3067 (2021/05/27)
The spiropyran derivatives can exist in two forms, the closed-ring spiropyran form and the open-ring merocyanine (MC) form. The SP form could be converted into the MC form upon UV irradiation. In this work, some 1′,3′,3′-trimethylspiro[chromene-2,2′-indoline] derivatives containing the nitro and formyl groups are synthesized via the reaction of 1,3,3-trimethyl-2-methylene-5-nitroindoline with the corresponding salicylaldehyde derivatives. These compounds have different photochromic behaviors. The synthesized photochromic molecules are characterized by the FT-IR, 1H-NMR, and 13C-NMR spectroscopic techniques. In order to investigate the photochromic properties of these compounds, the UV–visible spectroscopic analyses of their methanolic solutions before and after exposure to a UV lamp (in the spectral range of 360–400?nm) are studied. Graphic abstract: [Figure not available: see fulltext.].
Colorimetric Cyanide Chemosensor Based on 1′,3,3′,4-Tetrahydrospiro[chromene-2,2′-indole]
Dagiliene, Migle,Martynaitis, Vytas,Kri??iuˉniene, Vilija,Krik?tolaityte, Sonata,?a?kus, Algirdas
, p. 363 - 369 (2015/06/30)
A new class of chemosensors based on the 1′,3,3′,4-tetrahydrospiro[chromene-2,2′-indole] ring system, which detects cyanide with high specificity, is described. These chemosensors show a distinct color change when treated with cyanide in acetonitrile solution buffered with sodium phosphate, and this procedure is not affected by the presence of other common anions. The chemisensors exhibit high sensitivity to low concentrations of cyanide, meeting the European Union water quality control criterion of sensitivity below 0.05 mg L-1, and show a very fast response within tens of seconds. The mechanism for detection is rationalized by the nucleophilic substitution of the phenolic oxygen atom at the indoline C-2 atom by the cyanide anion to form a stable indolylnitrile adduct and to generate the colored 4-nitrophenolate chromophore. These chemosensors can be synthesized by a simple procedure from commercially available starting materials.
Synthesis of some new substituted photochromic N,N′-bis(spiro[1- benzopyran-2,2′-indolyl])diazacrown systems with substituent control over ion chelation
Roxburgh, Craig J.,Sammes, Peter G.
, p. 1050 - 1056 (2007/10/03)
The reversible photochemical ion chelation of the newly synthesised substituted N,N′-bis(spiro[1-benzopyran-2,2′-indolyl])diazacrown systems 15a-c and the subsequent molecular electronic control of this process using appropriately placed substituent groups on the spiro-benzopyran skeleton is reported. The principle of molecular electronic control of ion chelation is demonstrated by comparing the behaviour of the newly synthesised nitro-substituted and pyrido-annulated spiro-benzopyran system 9b with that of the unsubstituted compound 9a. Electronic substituent control over ion chelation is then exemplified for the new N,N′-bis(5′-nitrospiro[1- benzopyran-2,2′-indolyl])diazacrown system 15c and further exemplified for the corresponding 5′-trifluoromethyl derivative 15b, which contains the photochemically more robust trifluoromethyl group. The crown system 15a, unsubstituted in the spiro-indole moiety, is also reported. Wiley-VCH Verlag GmbH & Co. KGaA, 2006.
