Publication detail

Molecular tuning; Powerful tool at synthesis of Smart molecules for Organic electronics

KRAJČOVIČ, J.

Original Title

Molecular tuning; Powerful tool at synthesis of Smart molecules for Organic electronics

English Title

Molecular tuning; Powerful tool at synthesis of Smart molecules for Organic electronics

Type

abstract

Language

en

Original Abstract

Understanding and prediction of the consequences following the structural modification of the molecules and polymers plays significant role in the organic chemistry synthesis. During the last twenty years, the organic chemists have developed tremendous amounts of molecular building blocks which have been employed to design various oligomers, polymers or supramolecular systems according to individual demands for specific applications. One particular synthetic approach is to achieve the alternating donor (D) and acceptor (A) units to steer the molecular orbital energy gaps, as well as the band gap of the resulting copolymers (so-called D–A oligo-/polymers). This strategy is suitable for tailoring the properties of conjugated molecules for different applications like OFETs and PSCs.

English abstract

Understanding and prediction of the consequences following the structural modification of the molecules and polymers plays significant role in the organic chemistry synthesis. During the last twenty years, the organic chemists have developed tremendous amounts of molecular building blocks which have been employed to design various oligomers, polymers or supramolecular systems according to individual demands for specific applications. One particular synthetic approach is to achieve the alternating donor (D) and acceptor (A) units to steer the molecular orbital energy gaps, as well as the band gap of the resulting copolymers (so-called D–A oligo-/polymers). This strategy is suitable for tailoring the properties of conjugated molecules for different applications like OFETs and PSCs.

Keywords

molecular tining, diketopyrrolopyrroles (DPPs), bis(2-thienyl)phenylenes, energy gaps

Released

02.09.2015

ISBN

978-80-214-5228- 2

Book

Chemistry & Life 2015 - Book of Abstacts

Edition number

1

Pages from

143

Pages to

144

Pages count

2

Documents

BibTex


@misc{BUT117701,
  author="Jozef {Krajčovič}",
  title="Molecular tuning; Powerful tool at synthesis of Smart molecules for Organic electronics
",
  annote="Understanding and prediction of the consequences following the structural modification of the molecules and polymers plays significant role in the organic chemistry synthesis.
During the last twenty years, the organic chemists have developed tremendous amounts of molecular building blocks which have been employed to design various oligomers, polymers or supramolecular systems according to individual demands for specific applications. One particular synthetic approach is to achieve the alternating donor (D) and acceptor (A) units to steer the molecular orbital energy gaps, as well as the band gap of the resulting copolymers (so-called D–A oligo-/polymers). This strategy is suitable for tailoring the properties of conjugated molecules for different applications like OFETs and PSCs.",
  booktitle="Chemistry & Life 2015 - Book of Abstacts",
  chapter="117701",
  howpublished="print",
  year="2015",
  month="september",
  pages="143--144",
  type="abstract"
}