Electrical and Optical Transport Characterizations of Electron Beam Evaporated V Doped In<sub>2</sub>O<sub>3</sub> Thin Films

Islam, Md. Ariful; Roy, Ratan Chandra; Hossain, Jaker; Julkarnain, Md.; Khan, Khairul Alam

doi:10.1590/1980-5373-MR-2015-0753

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Articles • Mat. Res. 20 (1) • Jan-Feb 2017 • https://doi.org/10.1590/1980-5373-MR-2015-0753 copy

Electrical and Optical Transport Characterizations of Electron Beam Evaporated V Doped In₂O₃ Thin Films

Authorship SCIMAGO INSTITUTIONS RANKINGS

Vanadium (5 at. %) doped Indium Oxide (V: In₂O₃) thin films with different thicknesses (50 nm, 100 nm and 150 nm) were prepared onto glass substrate by electron beam evaporation technique in a vacuum of about 4×10^-3 Pa. X-ray diffraction (XRD) pattern revealed that the prepared films of thickness 50 nm are amorphous in nature. Temperature dependence of electrical resistivity was studied in the 300 < T < 475 K temperature range. The films exhibit a metallic behavior in the 300 < T < 380 K range with a positive temperature coefficient of the resistivity (TCR), whereas at T > 380 K, the conduction behavior turns into a semiconductor with a negative TCR. Optical studies revealed that the films of thickness 50 nm possess high transmittance of about 86 % in the near-infrared spectral region. The direct optical band gap lies between 3.26 and 3.00 eV depending on the film thickness.

Keywords:
Transparent conducting oxide; Activation energy; Indium oxide; V: In₂O₃ Thin films; Optical band gap

No.	Thickness (nm)	Resistivity (Ω-cm)
No.	Thickness (nm)	At 300 K	At 380 K	At 475K
1	50	1.80 ×10^-1	3.30 ×10^-1	9.00 ×10^-4
2	100	3.60 ×10^-2	6.60 ×10^-2	1.40 ×10^-3
3	150	1.10 ×10^-2	2.10 ×10^-2	1.70 ×10^-3

No.	Thickness (nm)	AVT (%) (700-1000 nm)	Band gap (eV)
1	50	86	3.26
2	100	80	3.16
3	150	75	3.00

Technique	TCOs	(wt. %)	Thickness (nm)	ρ (Ω-cm)	AVT (%) (700-1100 nm)	E_g (eV)	Refs.
E-beam	V:In₂O₃	5.0 % V	50	1.80 ×10^-1 (RT)	86	3.26	Present work
			100	3.60 ×10^-2 (RT)	80	3.16
			150	1.10 ×10^-2 (RT)	75	3.00
MSRTCE	V:In₂O₃	1.80 % V	-	7.95×10^-4	84	-	^[ ²⁴24 Li H, Wang N, Liu X. Optical and electrical properties of Vanadium doped Indium oxide thin films. Optics Express. 2008;16(1):194-199. ^]
		3.05 % V		8.05×10^-4	84
SCVD	V:In₂O₃	1.50 % V	-	1.10×10−3	84	-	^[ ²⁸28 Seki Y, Seki S, Hoshi Y, Uchida T, Sawada Y. Characteristics of vanadium-doped indium oxide thin films for organic light-emitting diodes fabricated by spray chemical vapor deposition. Japanese Journal of Applied Physics. 2015;54(4):041101. ^]
Thermal	Mo:In₂O₃	5.0 % Mo	-	5.20×10^-4	90	3.68	^[ ¹⁷17 Kaleemulla S, Madhusudhana Rao N, Girish Joshi M, Sivasankar Reddy A, Uthanna S, Sreedhara Reddy P. Electrical and optical properties of In2O3:Mo thin films prepared at various Mo-doping levels. Journal of Alloys and Compounds. 2010;504(2):351-356. ^]
PLD	Sn:In₂O₃	5.0 % SnO₂	150	4.00×10^-4	85	3.89	^[ ³⁵35 Kim H, Gilmore CM, Piqué A, Horwitz JS, Mattoussi H, Murata H, et al. Electrical, optical and structural properties if indium-tin-oxide thin films for organic light-emitting devices. Journal of Applied Physics. 1999;86(11):6451. ^]
PLD	Sn:In₂O₃	5.0 % SnO₂	170	2.00×10^-4	92	3.89
MOCVD	Ga:In₂O₃	0.1 % Ga	-	2.20×10⁻³	78	3.89	^[ ²⁰20 Kong L, Ma J, Yang F, Luan C, Zhu Z. Preparation and characterization of Ga2xIn2(1-x)O3 films deposited on ZrO2 (1 0 0) substrates by MOCVD. Journal of Alloys and Compounds. 2010;499(1):75-79. ^]
MOCVD	Ga:In₂O₃	0.9 % Ga	-	1.90	78	4.46
RF Sputtering	Ti:In₂O₃	2.5 % TiO₂	-	1.20×10^-4	75	-	^[ ⁴³43 Chaoumead C, Park HD, Joo BH, Kwak DJ, Park MW, Sung YM. Structural and Electrical Properties of Titanium-Doped Indium Oxide Films Deposited by RF Sputtering. Energy Procedia. 2013;34:572-581. ^]
ALD	Zr: In₂O₃		-	3.70×10⁻⁴	-	-	^[ ²²22 Asikainen T, Ritala M, Leskelä M. Atomic layer deposition growth of zirconium doped In2O3 films. Thin Solid Films. 2003;440(1-2):152-154. ^]

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Electrical and Optical Transport Characterizations of Electron Beam Evaporated V Doped In2O3 Thin Films

Electrical and Optical Transport Characterizations of Electron Beam Evaporated V Doped In₂O₃ Thin Films