Supramolecular Transistors with Quantum Interference Effect
The charge transport through supramolecular junctions exhibits unique quantum
interference (QI) effects, which provide an opportunity for the design of supramolecular …
interference (QI) effects, which provide an opportunity for the design of supramolecular …
Supramolecular radical electronics
Supramolecular radical chemistry is an emerging area bridging supramolecular chemistry
and radical chemistry, and the integration of radicals into the supramolecular architecture …
and radical chemistry, and the integration of radicals into the supramolecular architecture …
Supramolecular Enhancement of Charge Transport through Pillar [5] arene‐Based Self‐Assembled Monolayers
X Li, S Zhou, Q Zhao, Y Chen, P Qi, Y Zhang… - Angewandte …, 2023 - Wiley Online Library
Intermolecular charge transport is one of the essential modes for modulating charge
transport in molecular electronic devices. Supermolecules are highly promising candidates …
transport in molecular electronic devices. Supermolecules are highly promising candidates …
[HTML][HTML] 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 …
Understanding Emergent Complexity from a Single-Molecule Perspective
Y Guo, M Li, C Zhao, Y Zhang, C Jia, X Guo - JACS Au, 2024 - ACS Publications
Molecules, with structural, scaling, and interaction diversities, are crucial for the emergence
of complex behaviors. Interactions are essential prerequisites for complex systems to exhibit …
of complex behaviors. Interactions are essential prerequisites for complex systems to exhibit …
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 …
Robust Single-Supermolecule Switches Operating in Response to Two Different Noncovalent Interactions
P Zhou, Y Fu, M Wang, R Qiu, Y Wang… - Journal of the …, 2023 - ACS Publications
Supramolecular electronics provide an opportunity to introduce molecular assemblies into
electronic devices through a combination of noncovalent interactions such as [π··· π] and …
electronic devices through a combination of noncovalent interactions such as [π··· π] and …
Folding a single-molecule junction
C Wu, D Bates, S Sangtarash, N Ferri, A Thomas… - Nano Letters, 2020 - ACS Publications
Stimuli-responsive molecular junctions, where the conductance can be altered by an
external perturbation, are an important class of nanoelectronic devices. These have recently …
external perturbation, are an important class of nanoelectronic devices. These have recently …
Strain of Supramolecular Interactions in Single‐Stacking Junctions
Supramolecular electronics provide opportunities to integrate molecular building blocks into
electronic circuits, and investigations of the mechanical properties of the non‐covalent …
electronic circuits, and investigations of the mechanical properties of the non‐covalent …
Ladder-type conjugated molecules as robust multi-state single-molecule switches
Ladder-type molecular structures greatly enhance the chemical stability of oligoaniline
derivatives and impart well-defined physical properties to multiple molecular charge states …
derivatives and impart well-defined physical properties to multiple molecular charge states …