Molecular electronics is driven by the dream of expanding Moore's law to the molecular level
for next‐generation electronics through incorporating individual or ensemble molecules into …

Conspectus The field of molecular electronics has grown rapidly since its experimental
realization in the late 1990s, with thousands of publications on how molecules can act as …

We describe here the fabrication of large-area molecular junctions with a configuration of
ITO/[Ru (Phen) 3]/Al to understand temperature-and thickness-dependent charge transport …

Single-molecule devices not only promise to provide an alternative strategy to break through
the miniaturization and functionalization bottlenecks faced by traditional semiconductor …

Molecules are fascinating candidates for constructing tunable and electrically conducting
devices by the assembly of either a single molecule or an ensemble of molecules between …

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 …

Thin layers of cobalt and ruthenium polypyridyl-oligomers with thicknesses between 2 and 8
nm were deposited on gold by electrochemical reduction of diazonium salts. A scanning …

Thin layers of oligomers with thickness between 7 and 9 nm were deposited on flat gold
electrode surfaces by electrochemical reduction of diazonium reagents, then a Ti (2 nm)/Au …

Thin layers of viologen-based oligomers with thicknesses between 3 and 14 nm were
deposited on gold electrodes by electrochemical reduction of a diazonium salt, and then a …

Thin films of photochromic coordination polymers deposited by layer-by-layer technique,
based on iron (II) bis-terpyridine-appended dithienylethene blocks, were used to create light …