Systematic variation of thiophene substituents in photochromic spiropyrans

被引:0
作者
Dushanthi S. Dissanayake
Gregory T. McCandless
Mihaela C. Stefan
Michael C. Biewer
机构
[1] University of Texas at Dallas,Department of Chemistry and Biochemistry
来源
Photochemical & Photobiological Sciences | 2017年 / 16卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Spiropyrans are notable among different classes of photochromic compounds due to their large structural and electronic transformation upon isomerization. In order to parlay the electronic differences associated with the two isomeric forms into a materials based switch, the spiropyran ultimately requires a covalent attachment through a conjugated pathway. In this work a synthetic method was developed to incorporate spiropyran (SP) into thiophene based materials. A series of compounds with a systematic variation of substituents were synthesized (SP-T, SP-T-Br, SP-T-T, SP-T-T-T and SP-T-T-T-T-SP) and their photochromism in both polar (methanol) and non-polar (toluene) solvents were studied. These compounds showed a systematic variation of photochromic properties.
引用
收藏
页码:1057 / 1062
页数:5
相关论文
共 50 条
[31]   Photochromic properties of indoline spiropyrans of the coumarin series [J].
V. A. Barachevsky ;
R. E. Karpov ;
O. V. Venidiktova ;
T. M. Valova ;
Yu. P. Strokach ;
V. S. Miroshnikov ;
T. A. Chibisova ;
V. F. Traven .
Russian Chemical Bulletin, 2005, 54 :2425-2431
[32]   Oxazine as an efficient precursor for the development of photochromic spiropyrans [J].
Kumar, Arvind ;
Sahoo, Priya Ranjan ;
Kathuria, Ishana ;
Prakash, Kunal ;
Kumar, Satish .
JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY, 2023, 438
[33]   Role of complexation in the kinetics of photochromic transformations of spiropyrans [J].
Atabekyan, LS ;
Chibisov, AK .
HIGH ENERGY CHEMISTRY, 1998, 32 (01) :30-33
[34]   FLASH PHOTOLYSIS STUDIES OF PHOTOCHROMIC SPIROPYRANS IN SOLUTION [J].
WINDSOR, MW ;
MOORE, RS ;
NOVAK, JR .
SPECTROCHIMICA ACTA, 1962, 18 (10) :1364-1364
[35]   Photochromic properties of indoline spiropyrans of the coumarin series [J].
Barachevsky, VA ;
Karpov, RE ;
Venidiktova, OV ;
Valova, TM ;
Strokach, YP ;
Miroshnikov, VS ;
Chibisova, TA ;
Traven, VF .
RUSSIAN CHEMICAL BULLETIN, 2005, 54 (10) :2425-2431
[36]   APPARATUS FOR MEASURING OPTICAL PROPERTIES OF PHOTOCHROMIC SPIROPYRANS [J].
CARLSON, CO ;
FLAVIN, MA ;
STONE, E ;
PEARSON, IM .
REVIEW OF SCIENTIFIC INSTRUMENTS, 1969, 40 (07) :941-&
[37]   Research Progress on Photochromic Spiropyrans in the Solid State [J].
Yang, Suhua ;
Liu, Xiaoyin ;
Zou, Lifei ;
Han, Jie .
CHINESE JOURNAL OF ORGANIC CHEMISTRY, 2024, 44 (06) :1719-1732
[38]   New Photochromic Salt Spiropyrans of Indoline Series [J].
Pugachev, A. D. ;
Lukyanova, M. B. ;
Tkachev, V. V. ;
Lukyanov, B. S. ;
Makarova, N., I ;
Shilov, G., V ;
Rostovtseva, I. A. ;
Lapshina, L. S. ;
Minkin, V., I ;
Aldoshin, S. M. .
DOKLADY CHEMISTRY, 2019, 484 (2) :58-63
[39]   INTRAMOLECULAR ENERGY-TRANSFER INTO PHOTOCHROMIC SPIROPYRANS [J].
BALNY, C ;
GUGLIELMETTI, R ;
MOSSE, M ;
METZGER, J .
PHOTOCHEMISTRY AND PHOTOBIOLOGY, 1972, 16 (01) :69-+
[40]   QUANTUM YIELD OF COLORATION REACTION IN PHOTOCHROMIC SPIROPYRANS [J].
ARNAUD, J .
JOURNAL DE CHIMIE PHYSIQUE ET DE PHYSICO-CHIMIE BIOLOGIQUE, 1969, 66 (01) :159-&
12345