Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the electrical behaviour of memristors, resistors with memory. State-of-the-art technologies currently employ semiconductor-based neuromorphic approaches, which have already demonstrated their efficacy in machine learning systems. However, these approaches still cannot match performance achieved by biological neurons in terms of energy efficiency and size. In this study, we utilise molecular dynamics simulations, continuum models, and electrophysiological experiments to propose and realise a bioinspired hydrophobically gated memristive nanopore. Our findings indicate that hydrophobic gating enables memory through an electrowetting mechanism, and we...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
It is desirable that nanopores that are components of biosensors are gated, i.e. capable ...
Conventional neuro-computing architectures and artificial neural networks have often been developed ...
Solid-state neuromorphic systems based on transistors or memristors have yet to achieve the intercon...
It is desirable that nanopores that are components of biosensors are gated, i.e., capable of control...
Reproducing the ion channel-based neural functions with artificial fluidic systems is a long aspirat...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
This article describes a new way to explore neuromorphic engineering, the biomimetic artificial neur...
The brain is capable of massively parallel information processing while consuming only similar to 1-...
The ability for artificially reproducing human brain type signals’ processing is one of the main cha...
Ion channels form the basis of information processing in living cells by facilitating the exchange o...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
It is desirable that nanopores that are components of biosensors are gated, i.e. capable ...
Conventional neuro-computing architectures and artificial neural networks have often been developed ...
Solid-state neuromorphic systems based on transistors or memristors have yet to achieve the intercon...
It is desirable that nanopores that are components of biosensors are gated, i.e., capable of control...
Reproducing the ion channel-based neural functions with artificial fluidic systems is a long aspirat...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
This article describes a new way to explore neuromorphic engineering, the biomimetic artificial neur...
The brain is capable of massively parallel information processing while consuming only similar to 1-...
The ability for artificially reproducing human brain type signals’ processing is one of the main cha...
Ion channels form the basis of information processing in living cells by facilitating the exchange o...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Molecular dynamics simulations are used to study the function of hydrophobic gates within models of ...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...