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 …
Radical Single-Molecule Junctions
Radicals are unique molecular systems for applications in electronic devices due to their
open-shell electronic structures. Radicals can function as good electrical conductors and …
open-shell electronic structures. Radicals can function as good electrical conductors and …
A highly efficient open-shell singlet luminescent diradical with strong magnetoluminescence properties
A Abdurahman, L Shen, J Wang, M Niu, P Li… - Light: Science & …, 2023 - nature.com
Developing open-shell singlet (OS) diradicals with high luminescent properties and
exceptional single-molecule magnetoluminescence (ML) performance is extremely …
exceptional single-molecule magnetoluminescence (ML) performance is extremely …
Topological radical pairs produce ultrahigh conductance in long molecular wires
Molecular one-dimensional topological insulators (1D TIs), which conduct through
energetically low-lying topological edge states, can be extremely highly conducting and …
energetically low-lying topological edge states, can be extremely highly conducting and …
Ballistic conductance through porphyrin nanoribbons
JR Deng, MT González, H Zhu… - Journal of the …, 2024 - ACS Publications
The search for long molecular wires that can transport charge with maximum efficiency over
many nanometers has driven molecular electronics since its inception. Single-molecule …
many nanometers has driven molecular electronics since its inception. Single-molecule …
Enhanced electron transport in nonconjugated radical oligomers occurs by tunneling
Incorporating temperature-and air-stable organic radical species into molecular designs is a
potentially advantageous means of controlling the properties of electronic materials …
potentially advantageous means of controlling the properties of electronic materials …
Regulation of quantum spin conversions in a single molecular radical
C Yang, Z Chen, C Yu, J Cao, G Ke, W Zhu… - Nature …, 2024 - nature.com
Free radicals, generally formed through the cleavage of covalent electron-pair bonds, play
an important role in diverse fields ranging from synthetic chemistry to spintronics and …
an important role in diverse fields ranging from synthetic chemistry to spintronics and …
High Seebeck coefficient achieved by multinuclear organometallic molecular Junctions
This paper describes the thermoelectric properties of molecular junctions incorporating
multinuclear ruthenium alkynyl complexes that comprise Ru (dppe) 2 [dppe= 1, 2-bis …
multinuclear ruthenium alkynyl complexes that comprise Ru (dppe) 2 [dppe= 1, 2-bis …
Reversed conductance decay of 1D topological insulators by tight-binding analysis
Reversed conductance decay describes increasing conductance of a molecular chain series
with increasing chain length. Realizing reversed conductance decay is an important step …
with increasing chain length. Realizing reversed conductance decay is an important step …
Linker Conformation Controls Oxidation Potentials and Electrochromism in Highly Stable Zr-Based Metal–Organic Frameworks
L Shupletsov, S Topal, A Schieck… - Journal of the …, 2024 - ACS Publications
The development of tailor-made electrochromic (EC) materials requires a large variety of
available substances with properties that precisely match the task. Since the inception of …
available substances with properties that precisely match the task. Since the inception of …