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Molecular wires with a twist

August 21, 2024
in Technology and Engineering
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Molecular wires with a twist
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Osaka, Japan – From the high-voltage wires that carry electricity over long distances, to the tungsten filaments in our incandescent lights, we may have become accustomed to thinking that electrical conductors are always made of metal. But for decades, scientists have been working on advanced materials based on carbon-based oligomer chains that can also conduct electricity. These include the organic light-emitting devices found in some modern smartphones and computers.

Fig. 1

Credit: Osaka University

Osaka, Japan – From the high-voltage wires that carry electricity over long distances, to the tungsten filaments in our incandescent lights, we may have become accustomed to thinking that electrical conductors are always made of metal. But for decades, scientists have been working on advanced materials based on carbon-based oligomer chains that can also conduct electricity. These include the organic light-emitting devices found in some modern smartphones and computers.

In quantum mechanics, electrons are not just point particles with definite positions, but rather can become ‘delocalized’ over a region. A molecule with a long stretch of alternating single- and double-bonds is said to have pi-conjugation, and conductive polymers operate by allowing delocalized electrons to hop between pi-conjugated regions – somewhat like a frog hopping between nearby puddles. However, the efficiency of this process is limited by differences in the energy levels of adjacent regions. Fabricating oligomers and polymers with more uniform energy levels can lead to higher electrical conductivity, which is necessary for the development of new practical organic electronics, or even single-molecule wires.

Now, in a study recently published in The Journal of the American Chemical Society, researchers from SANKEN (The Institute of Scientific and Industrial Research), at Osaka University have created several nanometer-scale molecular wires with periodic twists. Compared with previous attempts that used one long chain that could rotate randomly, these oligomers consisted of rigid fused regions separated by evenly spaced twists. The researchers showed that their samples exhibited higher conductance compared with that found in non-fused oligothiophenes. “By carefully controlling the size of these pi-conjugated regions, high single-molecule conductance was achieved in these oligomers using rigid molecular structures,” says Ryo Asakawa, lead author of the study.

The researchers hope that this method can be applied to fabricate new organic electronic devices, which can be made more cheaply as thin chemical films applied to flexible substrates, compared with conventional silicon-based methods, which often require special clean rooms to produce using lithography. “We expect this research will lead to better single-molecule electronics and organic thin-film devices,” says senior author Yutaka Ie. Individual molecular wires might even be used as biocompatible sensors inside living cells.

 

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The article, “Periodically Twisted Molecular Wires Based on a Fused Unit for Efficient Intramolecular Hopping Transport,” was published in The Journal of the American Chemical Society at DOI:

About Osaka University
Osaka University was founded in 1931 as one of the seven imperial universities of Japan and is now one of Japan’s leading comprehensive universities with a broad disciplinary spectrum. This strength is coupled with a singular drive for innovation that extends throughout the scientific process, from fundamental research to the creation of applied technology with positive economic impacts. Its commitment to innovation has been recognized in Japan and around the world. Now, Osaka University is leveraging its role as a Designated National University Corporation selected by the Ministry of Education, Culture, Sports, Science and Technology to contribute to innovation for human welfare, sustainable development of society, and social transformation.
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Journal

Journal of the American Chemical Society

DOI

10.1021/jacs.4c07548

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Periodically Twisted Molecular Wires Based on a Fused Unit for Efficient Intramolecular Hopping Transport

Article Publication Date

12-Aug-2024

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