Jacob Tosado
University of Florida
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Publication
Featured researches published by Jacob Tosado.
Nano Letters | 2012
Evgeniya H. Lock; Mira Baraket; Matthew Laskoski; Shawn P. Mulvaney; Woo K. Lee; Paul E. Sheehan; Daniel R. Hines; Jeremy T. Robinson; Jacob Tosado; Michael S. Fuhrer; Sandra C. Hernández; Scott G. Walton
In this paper we demonstrate high-quality, uniform dry transfer of graphene grown by chemical vapor deposition on copper foil to polystyrene. The dry transfer exploits an azide linker molecule to establish a covalent bond to graphene and to generate greater graphene-polymer adhesion compared to that of the graphene-metal foil. Thus, this transfer approach provides a novel alternative route for graphene transfer, which allows for the metal foils to be reused.
Physical Review B | 2007
Tara Dhakal; Jacob Tosado; Amlan Biswas
We have studied the effect of substrate-induced strain on the properties of thin films of the hole-doped manganite
ACS Nano | 2014
Mark Thomas Edmonds; John Thery Hellerstedt; Anton Tadich; Alex Schenk; Kane Michael O'Donnell; Jacob Tosado; Nicholas P. Butch; Paul Syers; Johnpierre Paglione; Michael S. Fuhrer
{({\mathrm{La}}_{1\ensuremath{-}y}{\mathrm{Pr}}_{y})}_{0.67}{\mathrm{Ca}}_{0.33}\mathrm{Mn}{\mathrm{O}}_{3}
Journal of Physics: Condensed Matter | 2009
Jacob Tosado; Tara Dhakal; Amlan Biswas
(
Scientific Reports | 2016
Behnood G. Ghamsari; Jacob Tosado; Mahito Yamamoto; Michael S. Fuhrer; Steven M. Anlage
y=0.4
arXiv: Mesoscale and Nanoscale Physics | 2012
Behnood G. Ghamsari; Jacob Tosado; Mahito Yamamoto; Michael S. Fuhrer; Steven M. Anlage
, 0.5, and 0.6) grown on
RSC Advances | 2015
David Mayevsky; Jacob Tosado; Christopher D. Easton; Chun Hin Ng; Michael S. Fuhrer; Bjorn Winther-Jensen
\mathrm{Nd}\mathrm{Ga}{\mathrm{O}}_{3}
Scientific Reports | 2016
Behnood G. Ghamsari; Jacob Tosado; Mahito Yamamoto; Michael S. Fuhrer; Steven M. Anlage
(NGO) substrates, in order to distinguish between the roles played by long-range strain interactions and quenched atomic disorder in forming the micrometer-scale phase separated state. We show that a fluid phase separated (FPS) state is formed at intermediate temperatures similar to the strain-liquid state in bulk compounds, which can be converted to a metallic state by applying an external electric field. In contrast to bulk compounds, at low temperatures a strain stabilized ferromagnetic metallic (FMM) state is formed in the
conference on optoelectronic and microelectronic materials and devices | 2014
Mark Thomas Edmonds; John Thery Hellerstedt; Anton Tadich; Alex Schenk; Kane Michael O'Donnell; Jacob Tosado; Nicholas P. Butch; Paul Syers; Johnpierre Paglione; Michael S. Fuhrer
y=0.4
conference on precision electromagnetic measurements | 2012
Behnood G. Ghamsari; Jacob Tosado; Alexander P. Zhuravel; Mahito Yamamoto; Daniel Lenski; Jinglei Ping; Michael S. Fuhrer; Steven M. Anlage
and 0.5 samples. However, in the
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