Quyen Truong scite author profile

A nonvolatile analog memory transistor is demonstrated by integrating C60 molecules as charge storage molecules in the transistor gate, and carbon nanotubes (CNTs) in the transistor channel. The currents through the CNT channel can be tuned quantitatively and reversibly to analog values by controlling the number of electrons trapped in the C60 molecules. After tuning, the electrons trapped in the C60 molecules in the gate, and the current through the CNT channel, can be preserved in a nonvolatile manner, indicating the characteristics of the nonvolatile analog memory.

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A spiking neuron circuit based on a carbon nanotube transistor

K²,

Truong³

et al. 2012

Nanotechnology

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A spiking neuron circuit based on a carbon nanotube (CNT) transistor is presented in this paper. The spiking neuron circuit has a crossbar architecture in which the transistor gates are connected to its row electrodes and the transistor sources are connected to its column electrodes. An electrochemical cell is incorporated in the gate of the transistor by sandwiching a hydrogen-doped poly(ethylene glycol)methyl ether (PEG) electrolyte between the CNT channel and the top gate electrode. An input spike applied to the gate triggers a dynamic drift of the hydrogen ions in the PEG electrolyte, resulting in a post-synaptic current (PSC) through the CNT channel. Spikes input into the rows trigger PSCs through multiple CNT transistors, and PSCs cumulate in the columns and integrate into a 'soma' circuit to trigger output spikes based on an integrate-and-fire mechanism. The spiking neuron circuit can potentially emulate biological neuron networks and their intelligent functions.

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A Carbon Nanotube Synapse with Dynamic Logic and Learning (Adv. Mater. 12/2013)

et al. 2013

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A carbon nanotube (CNT) electronic synapse which emulates a biological synapse with its dynamic logic, learning, and memory functions is induced by the interactions between CNTs and hydrogen ions in an electrochemical cell. Temporally correlated spikes can trigger the dynamic interactions between CNTs and hydrogen ions, resulting in spike‐timing dependent plasticity (STDP) for memory and learning, as reported by Yong Chen and co‐workers .

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Quyen Truong

A Carbon Nanotube Synapse with Dynamic Logic and Learning

Nonvolatile Analog Memory Transistor Based on Carbon Nanotubes and C60 Molecules

A spiking neuron circuit based on a carbon nanotube transistor

A Carbon Nanotube Synapse with Dynamic Logic and Learning (Adv. Mater. 12/2013)

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