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Barry L. Zink
Researcher at University of Denver
Publications - 71
Citations - 3459
Barry L. Zink is an academic researcher from University of Denver. The author has contributed to research in topics: Thermal conductivity & Magnetization. The author has an hindex of 26, co-authored 68 publications receiving 2887 citations. Previous affiliations of Barry L. Zink include University of California, Los Angeles & National Institute of Standards and Technology.
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Journal ArticleDOI
Interface-induced phenomena in magnetism
Frances Hellman,Axel Hoffmann,Yaroslav Tserkovnyak,Geoffrey S. D. Beach,Eric E. Fullerton,Chris Leighton,Allan H. MacDonald,Daniel C. Ralph,Dario Arena,Hermann A. Dürr,Peter Fischer,Julie Grollier,Joseph P. Heremans,Tomas Jungwirth,Tomas Jungwirth,Alexey Kimel,B Bert Koopmans,Ilya Krivorotov,Steven J. May,Amanda K. Petford-Long,James M. Rondinelli,Nitin Samarth,Ivan K. Schuller,Ivan K. Schuller,Andrei Slavin,Mark D. Stiles,Oleg Tchernyshyov,André Thiaville,Barry L. Zink +28 more
TL;DR: This article reviews static and dynamic interfacial effects in magnetism, focusing on interfacially-driven magnetic effects and phenomena associated with spin-orbit coupling and intrinsic symmetry breaking at interfaces, identifying the most exciting new scientific results and pointing to promising future research directions.
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Tricritical point and the doping dependence of the order of the ferromagnetic phase transition of La1-xCaxMnO3.
TL;DR: In this paper, the doping dependence of the order of the ferromagnetic metal to paramagnetic insulator phase transition in La1-xCaxMnO3 was investigated.
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Tailored semiconducting carbon nanotube networks with enhanced thermoelectric properties
A. D. Avery,Ben H. Zhou,Jounghee Lee,Eui Sup Lee,Elisa M. Miller,Rachelle Ihly,Devin Wesenberg,Kevin S. Mistry,Sarah Lucienne Guillot,Sarah Lucienne Guillot,Barry L. Zink,Yong-Hyun Kim,Jeffrey L. Blackburn,Andrew J. Ferguson +13 more
TL;DR: Agarwal et al. as mentioned in this paper report carbon nanotube-based materials with selected properties that exhibit enhanced thermoelectric performance, which are low-cost, versatile alternatives to more established inorganic ones.
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Large n- and p-type thermoelectric power factors from doped semiconducting single-walled carbon nanotube thin films
Bradley A. MacLeod,Noah J. Stanton,Isaac E. Gould,Devin Wesenberg,Rachelle Ihly,Zbyslaw R. Owczarczyk,Katherine E. Hurst,Christopher S. Fewox,Christopher N. Folmar,Katherine Holman Hughes,Barry L. Zink,Jeffrey L. Blackburn,Andrew J. Ferguson +12 more
TL;DR: In this paper, a combination of ink chemistry, solid-state polymer removal, and charge-transfer doping strategies was used to achieve unprecedented n-type and p-type TE power factors, in the range of 700 μW m−1 K−2 at 298 K for the same solution-processed highly enriched thin films containing 100% s-SWCNTs.
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Thermal conductivity and specific heat of thin-film amorphous silicon.
TL;DR: The thermal conductivity and specific heat of amorphous silicon thin films measured from 5-300 K using silicon-nitride membrane-based microcalorimeters show no plateau, and the specific heat deviates less from Debye behavior than does its crystalline allotrope, indicating no significant excess modes (boson peak) in amorphously silicon.