The idea of using individual molecules as active electronic components provided the
impetus to develop a variety of experimental platforms to probe their electronic transport …

The use of single molecules in electronics represents the next limit of miniaturisation of
electronic devices, which would enable us to continue the trend of aggressive downscaling …

Unimolecular electronics (UME) narrowly defined (sensu stricto), 1 or molecular-scale
electronics, 2 is the study of electrical processes measured or controlled on a molecular …

We demonstrate a new method of achieving rectification in single molecule devices using
the high-bias properties of gold–carbon bonds. Our design for molecular rectifiers uses a …

This paper describes a molecular diode with high, statistically robust, rectification ratios R of
1.1× 103. These diodes operate with a new mechanism of charge transport based on …

The predictability, diversity and programmability of DNA make it a leading candidate for the
design of functional electronic devices that use single molecules, yet its electron transport …

This research work focuses on the synthesis, characterization through spectra (FT-IR, UV–
vis, and 1H-NMR) investigations, and the use of density functional theory (DFT) along with …

Single-molecule optoelectronic devices promise a potential solution for miniaturization and
functionalization of silicon-based microelectronic circuits in the future. For decades of its fast …

This paper describes that the performance of molecular diodes based on self-assembled
monolayers (SAMs) depends on the type of anchoring group and purity of the precursors of …

We investigated the origin of odd–even effects in molecular diodes based on self-assembled
monolayers (SAMs) of ferrocenyl-terminated n-alkanethiolates S (CH2) n Fc with n= 6–15 on …