B. A. Alebachew scite author profile

B. A. Alebachew

3Publications

19Citation Statements Received

25Citation Statements Given

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Affiliations

Adama Science and Technology University, Macalester College

Publications

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Terahertz and infrared transmission of an organic/inorganic hybrid thermoelectric material

Heyman¹,

Alebachew²,

Kaminski³

et al. 2014

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We report terahertz and infrared transmission measurements of a high-performance thermoelectric material containing tellurium nanowires in a conducting polymer poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) matrix. The DC electrical conductivity of the hybrid material (41 S/cm) is approximately one hundred times that of pure PEDOT:PSS and more than 400 times that of a film of pure tellurium nanowires, while the terahertz-frequency (THz) conductivity of PEDOT:PSS and the hybrid material are comparable at f ∼ 2THz. A frequency-dependent conductivity model indicates that the increased DC conductivity of the hybrid material results from an increase in the DC charge mobility rather than in the free charge density. We suggest that the increased DC conductivity of the hybrid material results from an increase in linkage between PEDOT domains by the tellurium nanowires.

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Ultrafast terahertz Faraday rotation in graphene

Heyman

Kune

Alebachew

et al. 2014

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Terahertz (THz) Faraday rotation measurements were performed to investigate carrier dynamics in p-type Chemical vapor deposition (CVD) graphene. We used static and time-resolved polarizationsensitive THz transmission measurements in a magnetic field to probe free carriers in GaAs, InP, and Graphene. Static measurements probe the equilibrium carrier density and momentum scattering rate. Time-resolved (optical pump/THz probe) measurements probe the change in these quantities following photoexcitation. In a typical CVD graphene sample, we found that 0.5 ps following photoexcitation with 1 Â 10 13 photons/cm 2 pulses at 800 nm the effective hole scattering time decreased from 37 fs to 34.5 fs, while the carrier concentration increased from 2.0 Â 10 12 cm À2 to 2.04 Â 10 12 cm À2 , leading to a transient decrease in the conductivity of the film. V C 2014 AIP Publishing LLC.

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Tin-doped ZnO electron transport layer to improve performance of P3HT-based organic solar cells

Alebachew

Waketola

Goosen

et al. 2023

J Sol-Gel Sci Technol

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B. A. Alebachew

Terahertz and infrared transmission of an organic/inorganic hybrid thermoelectric material

Ultrafast terahertz Faraday rotation in graphene

Tin-doped ZnO electron transport layer to improve performance of P3HT-based organic solar cells

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