The development of high-speed, nonvolatile memory devices with low power consumption remains a significant challenge for next-generation computing. A recent study reported molecular switches operating at low voltages in large-area junctions by coupling supramolecular structural changes and counterion migration to bias-dependent redox, culminating in proof-of-concept memory comprising self-assembled monolayers
International audienceAn electron donor-acceptor dyad has been designed for the creation of large-ar...
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This p...
The development of molecular electronic components has been accelerated by the promise of increased ...
The development of high-speed, nonvolatile memory devices with low power consumption remains a signi...
The development of high-speed, nonvolatile memory devices with low power consumption remains a signi...
We review charge transport across molecular monolayers, which is central to molecular electronics (M...
The main goal of molecular electronics is the fabrication of electronic devices based on the electro...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
We describe our research into building integrated molecular electronics circuitry for a diverse set ...
<p>Molecular electronics is an area of micro/nanoelectronics with a number of farreaching goals and ...
We have observed a large electrical conductance switching (ON:OFF ratio = 105) in single-layer sandw...
A novel memory device based on an electrically driven molecular rotor was fabricated and demonstrate...
The ultimate target of molecular electronics is to combine different types of functional molecules i...
An architectural rationale and an experimental program aimed at the development of molecular electro...
To avoid crosstalk and suppress leakage currents in resistive random access memories (RRAMs), a resi...
International audienceAn electron donor-acceptor dyad has been designed for the creation of large-ar...
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This p...
The development of molecular electronic components has been accelerated by the promise of increased ...
The development of high-speed, nonvolatile memory devices with low power consumption remains a signi...
The development of high-speed, nonvolatile memory devices with low power consumption remains a signi...
We review charge transport across molecular monolayers, which is central to molecular electronics (M...
The main goal of molecular electronics is the fabrication of electronic devices based on the electro...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
We describe our research into building integrated molecular electronics circuitry for a diverse set ...
<p>Molecular electronics is an area of micro/nanoelectronics with a number of farreaching goals and ...
We have observed a large electrical conductance switching (ON:OFF ratio = 105) in single-layer sandw...
A novel memory device based on an electrically driven molecular rotor was fabricated and demonstrate...
The ultimate target of molecular electronics is to combine different types of functional molecules i...
An architectural rationale and an experimental program aimed at the development of molecular electro...
To avoid crosstalk and suppress leakage currents in resistive random access memories (RRAMs), a resi...
International audienceAn electron donor-acceptor dyad has been designed for the creation of large-ar...
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This p...
The development of molecular electronic components has been accelerated by the promise of increased ...