Your search keyword '"Drachev, Vladimir"' showing total 3 results

1. Electronic and optical properties of ScN and (Sc,Mn)N thin films deposited by reactive DC-magnetron sputtering.

Author

Saha, Bivas, Naik, Gururaj, Drachev, Vladimir P., Boltasseva, Alexandra, Marinero, Ernesto E., and Sands, Timothy D.

Subjects

OPTICAL properties, SCANDIUM compounds, NITRIDES, SEMICONDUCTOR research, OPTOELECTRONICS, THIN film research, MAGNETRON sputtering

Abstract

Scandium nitride (ScN) is a rocksalt semiconductor that has attracted significant attention from various researchers for a diverse range of applications. Motivated by the prospect of using its interesting electronic structure for optoelectronic and dilute magnetic semiconductor applications, we present detailed studies of the electronic transport and optical properties of ScN and its alloys with manganese nitride (MnN). Our results suggest (a) dilute manganese doping in ScN compensates for the high n-type carrier concentrations arising due to oxygen impurities and (b) an n-type to p-type carrier type transition occurs at a composition between 5.8% and 11% Mn on Sc sites. In terms of its optical properties, our analysis clearly indicates direct and indirect bandgap absorption edges of ScN located at 2.04 eV and 1.18 eV, respectively. In addition to the direct gap absorption edge, (Sc,Mn)N samples also show Mn-defect induced electronic absorption. Photoluminescence measurements at room temperature from ScN films exhibit a yellowish-green emission corresponding to direct gap radiative recombination. Direct gap recombination is not expected given the smaller indirect gap. A possible role of high excitation intensities in suppressing relaxation and recombination across the indirect bandgap is suspected. Raman spectroscopic and ellipsometric characterization of the dielectric permittivities of ScN and (Sc,Mn)N are also presented to assist in understanding the potential of ScN for optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published

2013

2. Large-scale graphitic thin films synthesized on Ni and transferred to insulators: Structural and electronic properties.

Author

Cao, Helin, Yu, Qingkai, Colby, Robert, Pandey, Deepak, Park, C. S., Lian, Jie, Zemlyanov, Dmitry, Childres, Isaac, Drachev, Vladimir, Stach, Eric A., Hussain, Muhammad, Li, Hao, Pei, Steven S., and Chen, Yong P.

Subjects

ELECTRIC properties of thin films, GRAPHENE, SIZE effects in thin films, TRANSMISSION electron microscopy, METAL organic chemical vapor deposition, CHEMICAL vapor deposition, NICKEL electrometallurgy, SURFACE roughness measurement

Abstract

We present a comprehensive study of the structural and electronic properties of ultrathin films containing graphene layers synthesized by chemical vapor deposition based surface segregation on polycrystalline Ni foils then transferred onto insulating SiO2/Si substrates. Films of size up to several mm’s have been synthesized. Structural characterizations by atomic force microscopy, scanning tunneling microscopy, cross-sectional transmission electron microscopy (XTEM), and Raman spectroscopy confirm that such large-scale graphitic thin films (GTF) contain both thick graphite regions and thin regions of few-layer graphene. The films also contain many wrinkles, with sharply-bent tips and dislocations revealed by XTEM, yielding insights on the growth and buckling processes of the GTF. Measurements on mm-scale back-gated transistor devices fabricated from the transferred GTF show ambipolar field effect with resistance modulation ∼50% and carrier mobilities reaching ∼2000 cm2/V s. We also demonstrate quantum transport of carriers with phase coherence length over 0.2 μm from the observation of two-dimensional weak localization in low temperature magnetotransport measurements. Our results show that despite the nonuniformity and surface roughness, such large-scale, flexible thin films can have electronic properties promising for device applications. [ABSTRACT FROM AUTHOR]

Published

2010

3. Large-scale graphitic thin films synthesized on Ni and transferred to insulators: structural and electronic properties

Author

Helin Cao, Qingkai Yu, Colby, Robert, Pandey, Deepak, Park, C.S., Jie Lian, Zemlyanov, Dmitry, Childres, Isaac, Drachev, Vladimir, Stach, Eric A., Hussain, Muhammad, Hao Li, Pei, Steven S., and Chen, Yong P.

Subjects

Nickel compounds -- Electric properties, Dielectric films -- Electric properties, Thin films -- Electric properties, Chemical vapor deposition -- Analysis, Physics

Abstract

Several studies are conducted to explain the synthesis and the structural and electronic properties of the various ultrathin graphitic thin films formed by the chemical vapor deposition method. The films are shown to exhibit excellent electronic properties and hence can be easily used for various device applications.

Published

2010