Reversible photo control of proton chemistry
Y Liao - Physical Chemistry Chemical Physics, 2022 - pubs.rsc.org
Spatial, temporal, and remote control of proton chemistry can be achieved by using
photoacids, which are molecules that transform from weak to strong acids under light. Most …
photoacids, which are molecules that transform from weak to strong acids under light. Most …
Quantitative studies of single-molecule chemistry using conductance measurement
Recent advances in single-molecule electronics hold promise to go beyond the initial idea of
constructing molecular devices and offer new opportunities to investigate single-molecule …
constructing molecular devices and offer new opportunities to investigate single-molecule …
Azulene‐Embedded [n]Helicenes (n=5, 6 and 7)
C Duan, J Zhang, J Xiang, X Yang… - Angewandte Chemie …, 2022 - Wiley Online Library
Azulene is a non‐benzenoid aromatic building block with unique chemical structure and
physicochemical properties. By using the “bottom‐up” synthetic strategy, we synthesized …
physicochemical properties. By using the “bottom‐up” synthetic strategy, we synthesized …
Photoconductance from the bent-to-planar photocycle between ground and excited states in single-molecule junctions
Single-molecule conductance measurements for 9, 14-diphenyl-9, 14-dihydrodibenzo [a, c]
phenazine (DPAC) may offer unique insight into the bent-to-planar photocycle between the …
phenazine (DPAC) may offer unique insight into the bent-to-planar photocycle between the …
Achieving multiple quantum-interfered states via through-space and through-bond synergistic effect in foldamer-based single-molecule junctions
J Li, Z Zhuang, P Shen, S Song, BZ Tang… - Journal of the American …, 2022 - ACS Publications
The construction of multivalued logic circuits by multiple quantum-interfered states at the
molecular level can make full use of molecular diversity and versatility, broadening the …
molecular level can make full use of molecular diversity and versatility, broadening the …
[HTML][HTML] The fabrication, characterization and functionalization in molecular electronics
Developments in advanced manufacturing have promoted the miniaturization of
semiconductor electronic devices to a near-atomic scale, which continuously follows the'top …
semiconductor electronic devices to a near-atomic scale, which continuously follows the'top …
Fano Resonance in Single‐Molecule Junctions
The Fano resonance in single‐molecule junctions could be created by interaction with
discrete and continuous molecular orbitals and enables effective electron transport …
discrete and continuous molecular orbitals and enables effective electron transport …
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 …
Stable Universal 1‐and 2‐Input Single‐Molecule Logic Gates
Controllable single‐molecule logic operations will enable development of reliable ultra‐
minimalistic circuit elements for high‐density computing but require stable currents from …
minimalistic circuit elements for high‐density computing but require stable currents from …
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 …