145543-82-4Relevant articles and documents
Oligothiophene-Bridged Conjugated Covalent Organic Frameworks
Keller, Niklas,Bessinger, Derya,Reuter, Stephan,Calik, Mona,Ascherl, Laura,Hanusch, Fabian C.,Auras, Florian,Bein, Thomas
supporting information, p. 8194 - 8199 (2017/06/27)
Two-dimensional covalent organic frameworks (2D-COFs) are crystalline, porous materials comprising aligned columns of π-stacked building blocks. With a view toward the application of these materials in organic electronics and optoelectronics, the construction of oligothiophene-based COFs would be highly desirable. The realization of such materials, however, has remained a challenge, in particular with respect to laterally conjugated imine-linked COFs. We have developed a new building block design employing an asymmetric modification on an otherwise symmetric backbone that allows us to construct a series of highly crystalline quaterthiophene-derived COFs with tunable electronic properties. Studying the optical response of these materials, we have observed for the first time the formation of a charge transfer state between the COF subunits across the imine bond. We believe that our new building block design provides a general strategy for the construction of well-ordered COFs from various extended building blocks, thus greatly expanding the range of applicable molecules.
Study of an efficient and selective bromination reaction of substituted thiophenes
Hoffmann, Kenneth J.,Carlsen, Per H. J.
, p. 1607 - 1610 (2007/10/03)
Bromination in concentrated solutions of substituted thiophenes in acetic acid with NBS at room temperature was studied. Under the conditions, bromination readily took place with high regioselectivity at the 2-ring positions, > 99%. The developed method was demonstrated to be suitable for multimolar preparations.
Design, Synthesis, and Control of Conducting Polymer Architectures: Structurally Homogeneous Poly(3-alkylthiophenes)
McCullough, Richard D.,Lowe, Renae D.,Jayaraman, Manikandan,Anderson, Deborah L.
, p. 904 - 912 (2007/10/02)
The full details of a facile synthesis of structurally homogeneous poly(3-alkylthiophenes) (PAT's) is presented.In three steps from 3-bromothiophene, PAT's can be made with complete regiochemical control.We define structurally homogenous as a regiochemically well-defined polymer structure that in our case contains almost exclusively head-to-tail couplings (HT-HT) (2,5-couplings between adjacent thiophene rings).By analysis of the NMR data, our poly(n-butylthiophene) (5a) contains 93percent HT-HT couplings, 98percent of the desired regiochemistry is found in poly(n-hexylthiophene) (5b), 97percent in poly(n-octylthiophene), (5c), and 95percent in poly(n-dodecylthiophene), (5d).Quenching studies on reactive intermediates and 13C NMR data also demonstrate the regiochemical purity of these materials.These PAT's show lower energy absorption maximum shifts of up to 14 nm in solution, 46 nm in the solid state, and other intense lower energy peaks with shifts of up to 129 nm (609 nm) from PAT's prepared by the usual methods.All of these data are indicative of longer mean conjugation lengths.Molecular mechanics and ab initio calculations were performed on model trimers of 3-n-alkylthiophenes and show the relationship between regiochemistry of the trimer and its resultant conformations.The results of these calculations are related to the resultant electrical conductivity in these materials.These poly(3-alkylthiophenes) provide for the first time well-defined structures for the investigation of structure-property relationships in this class of electronic and photonic materials.