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Electrically driven light emission from hot single-walled carbon nanotubes at various temperatures and ambient pressures

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Wang, Xinran
Zhang, Li
Lu, Yuerui
Dai, Hongjie
Kato, YK
Pop, Eric

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Electroluminescence of individual single-walled carbon nanotubes down to ~ 15 K is measured. We observe electrically driven light emission from suspended quasimetallic nanotubes in vacuum down to ~ 15 K and under different gas pressures at room temperature. Light emission is found to originate from hot electrons in the presence of electrically driven nonequilibrium optical phonons. Reduced light emission is observed in exponential manner as electron and optical phonon temperatures in the nanotube are lowered by lower ambient temperature or higher gas pressure. The results reveal over wide ambient conditions, light emission in a suspended tube is from thermally excited electron-hole recombination.

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Applied Physics Letters

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