Discrete two-terminal single nanocluster quantum optoelectronic logic operations at room temperature

Tae Hee Lee; Robert M. Dickson

doi:10.1073/pnas.0635474100

Discrete two-terminal single nanocluster quantum optoelectronic logic operations at room temperature

Tae Hee Lee, Robert M. Dickson

Research output: Contribution to journal › Article › peer-review

68 Scopus citations

Abstract

Readily formed at nanoscale break junctions, arrays of individual spatially isolated, strongly electroluminescent Ag₂-Ag₈ nanoclusters perform complex logic operations within individual two-terminal nanoscale optoelectronics devices. Simultaneous electrical excitation of discrete room-temperature nanocluster energy levels directly yields AND, OR, NOT, XOR, and even full addition logic operations with either individual nanoclusters or nanocluster pairs as the active medium between only two electrodes. Imaged in parallel, noncontact electroluminescent readout obviates the need for electrically isolating individual features. This gated, pulsed, two-terminal device operation will likely drive future nano and molecular electronics advances without complicated nanofabrication.

Original language	English (US)
Pages (from-to)	3043-3046
Number of pages	4
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	100
Issue number	6
DOIs	https://doi.org/10.1073/pnas.0635474100
State	Published - Mar 18 2003

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abstract = "Readily formed at nanoscale break junctions, arrays of individual spatially isolated, strongly electroluminescent Ag2-Ag8 nanoclusters perform complex logic operations within individual two-terminal nanoscale optoelectronics devices. Simultaneous electrical excitation of discrete room-temperature nanocluster energy levels directly yields AND, OR, NOT, XOR, and even full addition logic operations with either individual nanoclusters or nanocluster pairs as the active medium between only two electrodes. Imaged in parallel, noncontact electroluminescent readout obviates the need for electrically isolating individual features. This gated, pulsed, two-terminal device operation will likely drive future nano and molecular electronics advances without complicated nanofabrication.",

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AB - Readily formed at nanoscale break junctions, arrays of individual spatially isolated, strongly electroluminescent Ag2-Ag8 nanoclusters perform complex logic operations within individual two-terminal nanoscale optoelectronics devices. Simultaneous electrical excitation of discrete room-temperature nanocluster energy levels directly yields AND, OR, NOT, XOR, and even full addition logic operations with either individual nanoclusters or nanocluster pairs as the active medium between only two electrodes. Imaged in parallel, noncontact electroluminescent readout obviates the need for electrically isolating individual features. This gated, pulsed, two-terminal device operation will likely drive future nano and molecular electronics advances without complicated nanofabrication.

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Discrete two-terminal single nanocluster quantum optoelectronic logic operations at room temperature

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