Molecular electronics: creating and bridging molecular junctions and promoting its commercialization
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 …
for next‐generation electronics through incorporating individual or ensemble molecules into …
Carbon-based molecular junctions for practical molecular electronics
RL McCreery - Accounts of Chemical Research, 2022 - ACS Publications
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 …
realization in the late 1990s, with thousands of publications on how molecules can act as …
Thickness-Dependent Charge Transport in Three Dimensional Ru (II)–Tris (phenanthroline)-Based Molecular Assemblies
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 …
ITO/[Ru (Phen) 3]/Al to understand temperature-and thickness-dependent charge transport …
[PDF][PDF] Single-molecule optoelectronic devices: physical mechanism and beyond
P Li, Y Chen, B Wang, M Li, D Xiang, C Jia… - Opto-Electronic …, 2022 - researching.cn
Single-molecule devices not only promise to provide an alternative strategy to break through
the miniaturization and functionalization bottlenecks faced by traditional semiconductor …
the miniaturization and functionalization bottlenecks faced by traditional semiconductor …
Electrochemical potential‐driven high‐throughput molecular electronic and spintronic devices: from molecules to applications
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 …
devices by the assembly of either a single molecule or an ensemble of molecules between …
Single-molecule nano-optoelectronics: insights from physics
P Li, L Zhou, C Zhao, H Ju, Q Gao, W Si… - Reports on Progress …, 2022 - iopscience.iop.org
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 …
functionalization of silicon-based microelectronic circuits in the future. For decades of its fast …
Long-range charge transport in diazonium-based single-molecule junctions
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 …
nm were deposited on gold by electrochemical reduction of diazonium salts. A scanning …
Control of rectification in molecular junctions: contact effects and molecular signature
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 …
electrode surfaces by electrochemical reduction of diazonium reagents, then a Ti (2 nm)/Au …
Highly efficient long-range electron transport in a viologen-based molecular junction
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 …
deposited on gold electrodes by electrochemical reduction of a diazonium salt, and then a …
Combining photomodulation and rectification in coordination molecular wires based on dithienylethene molecular junctions
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 …
based on iron (II) bis-terpyridine-appended dithienylethene blocks, were used to create light …