2021
DOI: 10.1063/5.0018944
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Metallic carbon nanotube quantum dots with broken symmetries as a platform for tunable terahertz detection

Abstract: Generating and detecting radiation in the technologically relevant range of the so-called terahertz gap (0.1 − 10 THz) is challenging because of a lack of efficient sources and detectors. Quantum dots in carbon nanotubes have shown great potential to build sensitive terahertz detectors usually based on photon-assisted tunnelling. A recently reported mechanism combining resonant quantum dot transitions and tunnelling barriers asymmetries results in a narrow linewidth photocurrent response with a large signal-to… Show more

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Cited by 7 publications
(2 citation statements)
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References 113 publications
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“…In CQD cases, on the other hand, the effective suppression of hole mobility (23.7 cm 2 /Vs) is identi ed due to defect-induced coulomb scattering of transported holes con gured by abundant oxygencontaining groups and surface-bound defective states. 20 When incorporating CQDs with FF-Gra as heterostructures, we barely observe the signi cant modulation of dark-current characteristics where the involved I-T behaviors resemble to that of bare CQDs. In fact, the associated band diagram of incorporated CQD/FF-Gra essentially points out the charge transfer across the created heterojunction from the consequence of leveraging the difference of Fermi level (φ, φ of FF-Gra = 4.81 eV and φ of CQD = 5.67 eV) at both sides, as evidenced in Figure S6; yet the contradicted result in viewing the hole transport stands against such normal circumstances.…”
Section: Materials Synthesis and Characterizationsmentioning
confidence: 81%
“…In CQD cases, on the other hand, the effective suppression of hole mobility (23.7 cm 2 /Vs) is identi ed due to defect-induced coulomb scattering of transported holes con gured by abundant oxygencontaining groups and surface-bound defective states. 20 When incorporating CQDs with FF-Gra as heterostructures, we barely observe the signi cant modulation of dark-current characteristics where the involved I-T behaviors resemble to that of bare CQDs. In fact, the associated band diagram of incorporated CQD/FF-Gra essentially points out the charge transfer across the created heterojunction from the consequence of leveraging the difference of Fermi level (φ, φ of FF-Gra = 4.81 eV and φ of CQD = 5.67 eV) at both sides, as evidenced in Figure S6; yet the contradicted result in viewing the hole transport stands against such normal circumstances.…”
Section: Materials Synthesis and Characterizationsmentioning
confidence: 81%
“…Coupling the adatom may result in symmetry breaking of the structure leading to a modification of its electronic properties and optical response [37]. Here, we aim to identify the parameters in the system that-if altered-influence these properties most sensitively.…”
Section: Introductionmentioning
confidence: 99%