D
Daryoosh Vashaee
Researcher at North Carolina State University
Publications - 243
Citations - 18254
Daryoosh Vashaee is an academic researcher from North Carolina State University. The author has contributed to research in topics: Thermoelectric effect & Thermoelectric materials. The author has an hindex of 48, co-authored 225 publications receiving 15724 citations. Previous affiliations of Daryoosh Vashaee include University of California, Santa Cruz & Oklahoma State University–Tulsa.
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Magnon-drag thermopower in antiferromagnets versus ferromagnets
TL;DR: In this paper, two material systems, namely MnSb and CrSb, which are similar in many aspects except that the former is ferromagnetic and the latter antiferromagnetic (AFM) magnons interact differently with the carriers and generate different amounts of drag-thermopower.
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Micro‐arc oxidation and electrophoretic deposition of nano‐grain merwinite (Ca3MgSi2O8) surface coating on magnesium alloy as biodegradable metallic implant
Mehdi Razavi,Mohammadhossein Fathi,Mohammadhossein Fathi,Omid Savabi,Daryoosh Vashaee,Lobat Tayebi,Lobat Tayebi +6 more
TL;DR: In this article, a nano-grain merwinite coating was applied on a magnesium alloy to improve both the corrosion resistance and the bioactivity of the alloy, making it an appropriate material for biodegradable bone implants.
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Strategies for engineering phonon transport in Heusler thermoelectric compounds
TL;DR: The authors discusses several approaches such as bulk nanostructuring, the creation of point defects and vacancies, impurity doping, and multiphase engineering of the material structure for reducing the thermal conductivity of the Heusler compounds.
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Reduction of thermal conductivity of bulk nanostructured bismuth telluride composites embedded with silicon nano-inclusions
Nikhil Satyala,Armin Tahmasbi Rad,Zahra Zamanipour,Payam Norouzzadeh,Jerzy S. Krasinski,Lobat Tayebi,Daryoosh Vashaee +6 more
TL;DR: In this paper, the authors demonstrate that the addition of silicon nano-inclusions to the nanostructured compound combined with a systematic thermal treatment beneficially reduces the thermal conductivity to less than 1.0 W/mK over the entire temperature range of 300 K to 525 K.
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In-situ fabricated transparent conducting nanofiber-shape polyaniline/coral-like TiO2 thin film: Application in bifacial dye-sensitized solar cells
TL;DR: In this article, a bifacial DSSC based on a transparent Polyaniline (PANI) films as counter electrode (CE) associated with coral-like TiO 2 nanostructured films, which can be used as the photoanode.