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Kayla A. Cooley
Researcher at Pennsylvania State University
Publications - 19
Citations - 245
Kayla A. Cooley is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Contact resistance & Ohmic contact. The author has an hindex of 6, co-authored 19 publications receiving 136 citations.
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Journal ArticleDOI
Uncovering the Effects of Metal Contacts on Monolayer MoS2
Kirstin Schauble,Dante Zakhidov,Eilam Yalon,Sanchit Deshmukh,Ryan W. Grady,Kayla A. Cooley,Connor J. McClellan,Sam Vaziri,Donata Passarello,Suzanne E. Mohney,Michael F. Toney,Aditya Sood,Alberto Salleo,Eric Pop +13 more
TL;DR: In this article, a comprehensive study of contact interfaces between seven metals (Y, S, S) is presented, where contact interfaces are a key limiter to the electronic performance of 2D semiconductor devices.
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Room Temperature van der Waals Epitaxy of Metal Thin Films on Molybdenum Disulfide
TL;DR: Transmission electron microscopy, in particular selected area electron diffraction, was used to investigate the orientational relationship of Al, Ag, Cu, Mn, Mo, Ni, Pd, Ru, Re, and Zn.
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Evaporated manganese films as a starting point for the preparation of thin-layer MnO x water-oxidation anodes
Carolin E. Frey,Frances Kwok,Diego Gonzáles-Flores,Jonas Ohms,Kayla A. Cooley,Holger Dau,Ivelina Zaharieva,Timothy N. Walter,Hamed Simchi,Suzanne E. Mohney,Philipp Kurz +10 more
TL;DR: In this article, a novel method to prepare anodes for water electrolysis cells has been developed, which starts from layers of elemental manganese deposited by physical vapour deposition (PVD) on indium-doped tin oxide (ITO).
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Cosputtered Calcium Manganese Oxide Electrodes for Water Oxidation.
TL;DR: The results demonstrate that Ca2+ incorporation can enhance the OER activity of MnOx electrocatalysts prepared by sputter deposition, and provides guidance for designing new electrodes for water oxidation on the basis of the abundant and nontoxic elements manganese and calcium.
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Effect of substrate on the growth and properties of MoS2 thin films grown by plasma-enhanced atomic layer deposition
TL;DR: In this article, a plasma-enhanced atomic layer deposition was used to grow molybdenum disulfide films using (tBuN)2(NMe2)2Mo and a remote H2S-Ar plasma as coreactants on three different substrates.