We investigate the optoelectronic properties of the semiconducting (6,5) species of single-walled carbon nanotubes by measuring ultrafast transient transmission changes with 20 fs time resolution. We demonstrate that photons with energy below the lowest exciton resonance efficiently lead to linear excitation of electronic states. This finding challenges the established picture of a vanishing optical absorption below the fundamental excitonic resonance. Our result points towards below-gap electronic states as an intrinsic property of semiconducting nanotubes
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
Wavelength-dependent, near-infrared pump-probe study of micelle-suspended Single-Walled Carbon Nanot...
We investigate the optoelectronic properties of the semiconducting (6,5) species of single-walled ca...
We show that excitons are not the unique outcome of photoexcitation in single-walled carbon nanotube...
Single-walled carbon nanotubes (SWNTs) are often considered the prototypical nanomaterial with their...
We present a thorough analysis of one- and two-color transient absorption measurements performed on ...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
We show that new low-energy photoluminescence (PL) bands can be created in the spectra of semiconduc...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
The ultrafast dynamics study of photoexcitations in semiconducting and metallic single-walled carbon...
The ultrafast dynamics study of photoexcitations in semiconducting and metallic single-walled carbon...
We present a thorough analysis of one- and two-color transient absorption measurements performed on ...
We studied the exciton energy transfer in pairs of semiconducting nanotubes using high-resolution op...
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
Wavelength-dependent, near-infrared pump-probe study of micelle-suspended Single-Walled Carbon Nanot...
We investigate the optoelectronic properties of the semiconducting (6,5) species of single-walled ca...
We show that excitons are not the unique outcome of photoexcitation in single-walled carbon nanotube...
Single-walled carbon nanotubes (SWNTs) are often considered the prototypical nanomaterial with their...
We present a thorough analysis of one- and two-color transient absorption measurements performed on ...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
We show that new low-energy photoluminescence (PL) bands can be created in the spectra of semiconduc...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
Theory predicts peculiar features for excited-state dynamics in one dimension (1D) that are difficul...
The ultrafast dynamics study of photoexcitations in semiconducting and metallic single-walled carbon...
The ultrafast dynamics study of photoexcitations in semiconducting and metallic single-walled carbon...
We present a thorough analysis of one- and two-color transient absorption measurements performed on ...
We studied the exciton energy transfer in pairs of semiconducting nanotubes using high-resolution op...
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
The quasi-1D confinement and reduced screening of photoexcited charges in single-walled carbon nanot...
Wavelength-dependent, near-infrared pump-probe study of micelle-suspended Single-Walled Carbon Nanot...
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