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 …
[HTML][HTML] The current science of sequence-defined macromolecules
A fundamental endeavour in macromolecular science is the control of molecular-level
complexity, including molecular weight distribution, end groups and architecture. Since the …
complexity, including molecular weight distribution, end groups and architecture. Since the …
Efficient intermolecular charge transport in π-stacked pyridinium dimers using cucurbit [8] uril supramolecular complexes
Intermolecular charge transport through π-conjugated molecules plays an essential role in
biochemical redox processes and energy storage applications. In this work, we observe …
biochemical redox processes and energy storage applications. In this work, we observe …
Single-molecule charge transport through positively charged electrostatic anchors
The charge transport in single-molecule junctions depends critically on the chemical identity
of the anchor groups that are used to connect the molecular wires to the electrodes. In this …
of the anchor groups that are used to connect the molecular wires to the electrodes. In this …
[HTML][HTML] Precise control of conjugated polymer synthesis from step-growth polymerization to iterative synthesis
C Xu, J Dong, C He, J Yun, X Pan - Giant, 2023 - Elsevier
Conjugated polymers with excellent optoelectronic properties, easy processability, and
flexible physical properties are versatile in various applications. In recent years, the precise …
flexible physical properties are versatile in various applications. In recent years, the precise …
Secondary structure determines electron transport in peptides
Proteins play a key role in biological electron transport, but the structure–function
relationships governing the electronic properties of peptides are not fully understood …
relationships governing the electronic properties of peptides are not fully understood …
[書籍][B] Quantum transport in nanostructures and molecules: an introduction to molecular electronics
CJ Lambert - 2021 - iopscience.iop.org
This reference text presents a conceptual framework for understanding room-temperature
electron and phonon transport through molecules and other quantum objects. The flow of …
electron and phonon transport through molecules and other quantum objects. The flow of …
Using automated synthesis to understand the role of side chains on molecular charge transport
The development of next-generation organic electronic materials critically relies on
understanding structure-function relationships in conjugated polymers. However, unlocking …
understanding structure-function relationships in conjugated polymers. However, unlocking …
Gating the conductance of a single-molecule junction with ion-π interaction
R Wang, Y Li, A Tang, Y Li, H Li - Chemical Communications, 2022 - pubs.rsc.org
The single molecular conductance of viologen derivative VSMe and supramolecular
compound VSMe-PA [5](pillararene [5]) was investigated. The difference of their …
compound VSMe-PA [5](pillararene [5]) was investigated. The difference of their …
Transition between nonresonant and resonant charge transport in molecular junctions
Efficient long-range charge transport is required for high-performance molecular electronic
devices. Resonant transport is thought to occur in single molecule junctions when molecular …
devices. Resonant transport is thought to occur in single molecule junctions when molecular …