Affiliation:
1. Device Modelling Group School of Engineering University of Warwick Coventry CV4 7AL UK
2. Department of Chemistry University of Liverpool Crown Street Liverpool L69 7ZD UK
3. Department of Chemistry York University 4700 Keele Street Toronto ON, M3J 1P3 Canada
Abstract
AbstractMost studies in molecular electronics focus on altering the molecular wire backbone to tune the electrical properties of the whole junction. However, it is often overlooked that the chemical structure of the groups anchoring the molecule to the metallic electrodes influences the electronic structure of the whole system and, therefore, its conductance. We synthesised electron‐accepting dithienophosphole oxide derivatives and fabricated their single‐molecule junctions. We found that the anchor group has a dramatic effect on charge‐transport efficiency: in our case, electron‐deficient 4‐pyridyl contacts suppress conductance, while electron‐rich 4‐thioanisole termini promote efficient transport. Our calculations show that this is due to minute changes in charge distribution, probed at the electrode interface. Our findings provide a framework for efficient molecular junction design, especially valuable for compounds with strong electron withdrawing/donating backbones.
Funder
Engineering and Physical Sciences Research Council
Royal Society
Canada Foundation for Innovation
UK Research and Innovation
Leverhulme Trust
Canada Research Chairs
Cited by
3 articles.
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