Electrochemical and Plasmon‐induced Grafting of n‐Dopable π‐Conjugated Oligomers

Abstract: The functionalization of electrodes by the reduction of diazonium cations generated in situ from 4- (2,3-diethylthieno[3,4-b] pyrazine-5-yl)aniline has been investigated. The thienopyrazine unit of this molecule is a precursor of n-dopable π-conjugated oligomers. Electrochemical reduction of diazonium cation coats the electrode with organic layers. Raman, IR, and XPS analyses show that their composition corresponds to that of the starting monomer, while AFM scratching measurements indicate thicknesses below … Show more

“…The key element for driving this reaction was proposed to be hot electrons, which are generated by the plasmonic substrate − and transferred to the diazonium salt absorbed on the metal surface . Using this reaction, an organic semiconductor ,, and π-conjugated materials , can be grafted onto NPs. This is of considerable interest for the development of nanoscale optoelectronic devices, photoactive switches, photoactive memory devices, rectennas for energy harvesting, and more generally plasmonic molecular electronic devices. , …”

Long-Range Plasmon-Induced Anisotropic Growth of an Organic Semiconductor between Isotropic Gold Nanoparticles

“…The key element for driving this reaction was proposed to be hot electrons, which are generated by the plasmonic substrate − and transferred to the diazonium salt absorbed on the metal surface . Using this reaction, an organic semiconductor ,, and π-conjugated materials , can be grafted onto NPs. This is of considerable interest for the development of nanoscale optoelectronic devices, photoactive switches, photoactive memory devices, rectennas for energy harvesting, and more generally plasmonic molecular electronic devices. , …”

Long-Range Plasmon-Induced Anisotropic Growth of an Organic Semiconductor between Isotropic Gold Nanoparticles

Diazonium Electroreduction and Molecular Electronics