Nair, Hari P., Crook, Adam M., Bank, Seth R. (2010) Enhanced conductivity of tunnel junctions employing semimetallic nanoparticles through variation in growth temperature and deposition. Applied Physics Letters, 96 (22). 222104pp. doi:10.1063/1.3442909

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Reference Type	Journal (article/letter/editorial)
Title	Enhanced conductivity of tunnel junctions employing semimetallic nanoparticles through variation in growth temperature and deposition
Journal	Applied Physics Letters
Authors	Nair, Hari P.		Author
	Crook, Adam M.		Author
	Bank, Seth R.		Author
Year	2010 (May 31)	Volume	96
Issue	22
Publisher	AIP Publishing
DOI	doi:10.1063/1.3442909Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	8584078	Long-form Identifier	mindat:1:5:8584078:2
GUID	0
Full Reference	Nair, Hari P., Crook, Adam M., Bank, Seth R. (2010) Enhanced conductivity of tunnel junctions employing semimetallic nanoparticles through variation in growth temperature and deposition. Applied Physics Letters, 96 (22). 222104pp. doi:10.1063/1.3442909
Plain Text	Nair, Hari P., Crook, Adam M., Bank, Seth R. (2010) Enhanced conductivity of tunnel junctions employing semimetallic nanoparticles through variation in growth temperature and deposition. Applied Physics Letters, 96 (22). 222104pp. doi:10.1063/1.3442909
In	(2010, May) Applied Physics Letters Vol. 96 (22) AIP Publishing

	Crook, Adam M., Nair, Hari P., Bank, Seth R. (2010) High-performance nanoparticle-enhanced tunnel junctions for photonic devices. physica status solidi (c), 7 (10). 2544-2547 doi:10.1002/pssc.200983914
	Crook, Adam M., Nair, Hari P., Bank, Seth R. (2011) Surface segregation effects of erbium in GaAs growth and their implications for optical devices containing ErAs nanostructures. Applied Physics Letters, 98 (12). 121108pp. doi:10.1063/1.3565168
	Nair, Hari P., Crook, Adam M., Yu, Kin M., Bank, Seth R. (2012) Structural and optical studies of nitrogen incorporation into GaSb-based GaInSb quantum wells. Applied Physics Letters, 100 (2). 21103pp. doi:10.1063/1.3675618
	Crook, Adam M., Nair, Hari P., Ferrer, Domingo A., Bank, Seth R. (2011) Suppression of planar defects in the molecular beam epitaxy of GaAs/ErAs/GaAs heterostructures. Applied Physics Letters, 99 (7). 72120pp. doi:10.1063/1.3626035
	Park, K. W., Dasika, V. D., Nair, H. P., Crook, A. M., Bank, S. R., Yu, E. T. (2012) Conductivity and structure of ErAs nanoparticles embedded in GaAs pn junctions analyzed via conductive atomic force microscopy. Applied Physics Letters, 100 (23). 233117pp. doi:10.1063/1.4728116
	Park, K. W., Nair, H. P., Crook, A. M., Bank, S. R., Yu, E. T. (2011) Scanning capacitance microscopy of ErAs nanoparticles embedded in GaAs pn junctions. Applied Physics Letters, 99 (13). 133114pp. doi:10.1063/1.3644144
	Krivoy, E. M., Nair, H. P., Crook, A. M., Rahimi, S., Maddox, S. J., Salas, R., Ferrer, D. A., Dasika, V. D., Akinwande, D., Bank, S. R. (2012) Growth and characterization of LuAs films and nanostructures. Applied Physics Letters, 101 (14). 141910pp. doi:10.1063/1.4757605
	Crook, Adam M., Lind, Erik, Griffith, Zach, Rodwell, Mark J. W., Zimmerman, Jeremy D., Gossard, Arthur C., Bank, Seth R. (2007) Low resistance, nonalloyed Ohmic contacts to InGaAs. Applied Physics Letters, 91 (19). 192114pp. doi:10.1063/1.2806235
	Bank, Seth R., Yuen, Homan B., Bae, Hopil, Wistey, Mark A., Moto, Akihiro, Harris, James S. (2006) Enhanced luminescence in GaInNAsSb quantum wells through variation of the arsenic and antimony fluxes. Applied Physics Letters, 88 (24). 241923pp. doi:10.1063/1.2213176
	Park, K. W., Nair, H. P., Crook, A. M., Bank, S. R., Yu, E. T. (2013) Quantitative scanning thermal microscopy of ErAs/GaAs superlattice structures grown by molecular beam epitaxy. Applied Physics Letters, 102 (6). 61912pp. doi:10.1063/1.4792757
	*Schubert, Martin F. (2010) Polarization-charge tunnel junctions for ultraviolet light-emitters without p-type contact. Applied Physics Letters, 96 (3). 31102pp. doi:10.1063/1.3280866*

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Nair, Hari P., Crook, Adam M., Bank, Seth R. (2010) Enhanced conductivity of tunnel junctions employing semimetallic nanoparticles through variation in growth temperature and deposition. Applied Physics Letters, 96 (22). 222104pp. doi:10.1063/1.3442909

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