Concepts in the design and engineering of single-molecule electronic devices
Over the past two decades, various techniques for fabricating nano-gapped electrodes have
emerged, promoting rapid development in the field of single-molecule electronics, on both …
emerged, promoting rapid development in the field of single-molecule electronics, on both …
In vivo electrochemical biosensors: Recent advances in molecular design, electrode materials, and electrochemical devices
S Wang, Y Liu, A Zhu, Y Tian - Analytical Chemistry, 2023 - ACS Publications
Electrochemical biosensors provide powerful tools for dissecting the dynamically changing
neurochemical signals in the living brain, which contribute to the insight into the …
neurochemical signals in the living brain, which contribute to the insight into the …
Room-temperature logic-in-memory operations in single-metallofullerene devices
In-memory computing provides an opportunity to meet the growing demands of large data-
driven applications such as machine learning, by colocating logic operations and data …
driven applications such as machine learning, by colocating logic operations and data …
σ–σ Stacked supramolecular junctions
Intermolecular charge transport plays an essential role in organic electronic materials and
biological systems. To date, experimental investigations of intermolecular charge transport …
biological systems. To date, experimental investigations of intermolecular charge transport …
Single-molecule electronics: from chemical design to functional devices
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 …
electronic devices, which would enable us to continue the trend of aggressive downscaling …
Enhanced π–π stacking between dipole-bearing single molecules revealed by conductance measurement
Dipoles are widely involved in π–π interactions and are central to many chemical and
biological functions, but their influence on the strength of π–π interactions remains unclear …
biological functions, but their influence on the strength of π–π interactions remains unclear …
Anti-resonance features of destructive quantum interference in single-molecule thiophene junctions achieved by electrochemical gating
Controlling the electrical conductance and in particular the occurrence of quantum
interference in single-molecule junctions through gating effects has potential for the …
interference in single-molecule junctions through gating effects has potential for the …
Electric field–induced selective catalysis of single-molecule reaction
Oriented external electric fields (OEEFs) offer a unique chance to tune catalytic selectivity by
orienting the alignment of the electric field along the axis of the activated bond for a specific …
orienting the alignment of the electric field along the axis of the activated bond for a specific …
Recent progress in the development of molecular-scale electronics based on photoswitchable molecules
X Huang, T Li - Journal of Materials Chemistry C, 2020 - pubs.rsc.org
Molecular electronic devices with tunable conductance states show great potential in
building memories and logic components for next-generation circuits. In recent years …
building memories and logic components for next-generation circuits. In recent years …
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 …