Charge transport through molecular ensembles: Recent progress in molecular electronics
This review focuses on molecular ensemble junctions in which the individual molecules of a
monolayer each span two electrodes. This geometry favors quantum mechanical tunneling …
monolayer each span two electrodes. This geometry favors quantum mechanical tunneling …
Ion selective nanochannels: from critical principles to sensing and biosensing applications
Nanochannels offer significant practical advantages in many fields due to their interesting
characteristics, such as flexibility in shape and size, robustness, low‐cost and their ability to …
characteristics, such as flexibility in shape and size, robustness, low‐cost and their ability to …
Charge injection engineering at organic/inorganic heterointerfaces for high-efficiency and fast-response perovskite light-emitting diodes
The development of advanced perovskite emitters has considerably improved the
performance of perovskite light-emitting diodes (LEDs). However, the further development of …
performance of perovskite light-emitting diodes (LEDs). However, the further development of …
Conformation, and charge tunneling through molecules in SAMs
This paper demonstrates that the molecular conformation (in addition to the composition and
structure) of molecules making up self-assembled monolayers (SAMs) influences the rates …
structure) of molecules making up self-assembled monolayers (SAMs) influences the rates …
Redox-controlled conductance of polyoxometalate molecular junctions
We demonstrate the reversible in situ photoreduction of molecular junctions of a
phosphomolybdate [PMo12O40] 3− monolayer self-assembled on flat gold electrodes …
phosphomolybdate [PMo12O40] 3− monolayer self-assembled on flat gold electrodes …
Quantum plasmonics: energy transport through plasmonic gap
At the interfaces of metal and dielectric materials, strong light–matter interactions excite
surface plasmons; this allows electromagnetic field confinement and enhancement on the …
surface plasmons; this allows electromagnetic field confinement and enhancement on the …
Functional redox‐active molecular tunnel junctions
Y Han, CA Nijhuis - Chemistry–An Asian Journal, 2020 - Wiley Online Library
Redox‐active molecular junctions have attracted considerable attention because redox‐
active molecules provide accessible energy levels enabling electronic function at the …
active molecules provide accessible energy levels enabling electronic function at the …
Printable logic circuits comprising self-assembled protein complexes
X Qiu, RC Chiechi - Nature Communications, 2022 - nature.com
This paper describes the fabrication of digital logic circuits comprising resistors and diodes
made from protein complexes and wired together using printed liquid metal electrodes …
made from protein complexes and wired together using printed liquid metal electrodes …
Reversal of the direction of rectification induced by fermi level pinning at molecule–electrode interfaces in redox-active tunneling junctions
Y Han, MS Maglione, V Diez Cabanes… - … Applied Materials & …, 2020 - ACS Publications
Control over the energy level alignment in molecular junctions is notoriously difficult, making
it challenging to control basic electronic functions such as the direction of rectification …
it challenging to control basic electronic functions such as the direction of rectification …
Molecular Diodes With Tunable Threshold Voltage Based on π‐Extended Tetrathiafulvalene
It is a challenge to control the threshold voltage (defined as the voltage at which the current
density increases sharply in the direction of forward bias), one of the basic parameters that …
density increases sharply in the direction of forward bias), one of the basic parameters that …