Advances in single-molecule junctions as tools for chemical and biochemical analysis
The development of miniaturized electronics has led to the design and construction of
powerful experimental platforms capable of measuring electronic properties to the level of …
powerful experimental platforms capable of measuring electronic properties to the level of …
A review of functional linear carbon chains (oligoynes, polyynes, cumulenes) and their applications as molecular wires in molecular electronics and optoelectronics
MR Bryce - Journal of Materials Chemistry C, 2021 - pubs.rsc.org
Linear, sp-hybridised, 1-dimensional (1D) all-carbon wires are conceptually the simplest π-
conjugated organic molecules. Their fundamental experimental and theoretical properties …
conjugated organic molecules. Their fundamental experimental and theoretical properties …
Molecular structure–(thermo) electric property relationships in single-molecule junctions and comparisons with single-and multiple-parameter models
M Naher, DC Milan, OA Al-Owaedi… - Journal of the …, 2021 - ACS Publications
The most probable single-molecule conductance of each member of a series of 12
conjugated molecular wires, 6 of which contain either a ruthenium or platinum center …
conjugated molecular wires, 6 of which contain either a ruthenium or platinum center …
Recent advances in metal organic frameworks based surface enhanced Raman scattering substrates: synthesis and applications
P Wang, Y Sun, X Li, L Wang, Y Xu, G Li - Molecules, 2021 - mdpi.com
Metal-organic frameworks (MOFs) are supramolecular nanomaterials, in which metal ions or
clusters are connected by organic ligands to form crystalline lattices with highly ordered …
clusters are connected by organic ligands to form crystalline lattices with highly ordered …
Coordination-driven opto-electroactive molecular thin films in electronic circuits
Surface engineering using controlled molecular structures, compositions, thicknesses,
packing, and orientations is highly desirable for understanding nanoscale interfacial …
packing, and orientations is highly desirable for understanding nanoscale interfacial …
Redox control of charge transport in vertical ferrocene molecular tunnel junctions
Controlling charge transport through molecular tunnel junctions is of crucial importance for
exploring basic physical and chemical mechanisms at the molecular level and realizing the …
exploring basic physical and chemical mechanisms at the molecular level and realizing the …
Nanoscale molecular layers for memory devices: challenges and opportunities for commercialization
The modern era of digital computing systems is deeply embedded around memory devices,
which store an ocean of information accessible by an electronic gadget. Such electronic …
which store an ocean of information accessible by an electronic gadget. Such electronic …
Nanofabrication techniques in large-area molecular electronic devices
The societal impact of the electronics industry is enormous—not to mention how this industry
impinges on the global economy. The foreseen limits of the current technology—technical …
impinges on the global economy. The foreseen limits of the current technology—technical …
Covalent Ag–C bonding contacts from unprotected terminal acetylenes for molecular junctions
Robust molecule–metal linkages are essential for developing high-performance and air-
stable devices for molecular and organic electronics. In this work, we report a facile method …
stable devices for molecular and organic electronics. In this work, we report a facile method …
Assembly, structure and thermoelectric properties of 1, 1′-dialkynylferrocene 'hinges'
Dialkynylferrocenes exhibit attractive electronic and rotational features that make them ideal
candidates for use in molecular electronic applications. However previous works have …
candidates for use in molecular electronic applications. However previous works have …