Reproducing the ion channel-based neural functions with artificial fluidic systems is a long aspirational goal both for neuromorphic computing and biomedical applications. Herein neuromorphic functions are successfully accomplished with polyelectrolyte-confined fluidic memristors (PFMs), in which confined polyelectrolyte-ion interactions contribute to hysteretic ion transport, resulting in ionic memory effects. Various electric pulse patterns are emulated by PFM with ultralow power consumption. Benefiting from the fluidic-based property of PFMs, mimicking chemical-regulated electric pulse is investigated and accomplished. More importantly, chemical-electric signal transduction is implemented based on the specific recognition of PFM. With st...
In the field of artificial intelligence hardware, a memristor has been proposed as an artificial syn...
Memristive materials play a key role in the development of neuromorphic technology given that they c...
The ability to vary the conductance of a valence-change memristor in a continuous manner makes it a ...
This article describes a new way to explore neuromorphic engineering, the biomimetic artificial neur...
Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the el...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Neuromorphic engineering involves designing artificial neural systems that mimic the way neuron circ...
Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
Nano-sized two-terminal memristor exhibiting volatile threshold switching (TS) is a promising candid...
The brain is capable of massively parallel information processing while consuming only similar to 1-...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
The interfacing of artificial devices with biological systems is a challenging field that crosses se...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
Memristor, the fourth passive circuit element, has attracted increased attention from various areas ...
In the field of artificial intelligence hardware, a memristor has been proposed as an artificial syn...
Memristive materials play a key role in the development of neuromorphic technology given that they c...
The ability to vary the conductance of a valence-change memristor in a continuous manner makes it a ...
This article describes a new way to explore neuromorphic engineering, the biomimetic artificial neur...
Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the el...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Neuromorphic engineering involves designing artificial neural systems that mimic the way neuron circ...
Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
Nano-sized two-terminal memristor exhibiting volatile threshold switching (TS) is a promising candid...
The brain is capable of massively parallel information processing while consuming only similar to 1-...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
The interfacing of artificial devices with biological systems is a challenging field that crosses se...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
Memristor, the fourth passive circuit element, has attracted increased attention from various areas ...
In the field of artificial intelligence hardware, a memristor has been proposed as an artificial syn...
Memristive materials play a key role in the development of neuromorphic technology given that they c...
The ability to vary the conductance of a valence-change memristor in a continuous manner makes it a ...