Optical transmission in thin films of vanadium compounds

Kh. S. Karimov; M. Mahroof-Tahir; M. Saleem; N. Ahmad; A. Rashid

doi:10.1088/1674-4926/35/7/072002

J. Semicond. > 2014, Volume 35 > Issue 7 > 072002, doi: 10.1088/1674-4926/35/7/072002

SEMICONDUCTOR PHYSICS

Optical transmission in thin films of vanadium compounds

Kh. S. Karimov^{1, 2}, M. Mahroof-Tahir³, M. Saleem^{1, 4,}, N. Ahmad¹ and A. Rashid⁴

+ Author Affiliations

Corresponding author: M. Saleem, Email:msaleem108@hotmail.com, drsaleem@ymail.com

Abstract: Thin films of five vanadium compounds/composite:(1) VO₂(3-fl) (3-fl=3-Hydroxyflavone), (2) VO(pbd)₂ (pbd=1-Phenyl-1, 3-butadione), (3) VO(dbm)₂ (dbm=Dibenzoylmethane), (4) VPc (Vanadyl Phthalocyanine) and (5) V₂O₅-PEPC (V₂O₅-poly-N-epoxypropylcarbazole composite), were deposited by the drop-casting method from the solution in benzene. The transmittance-irradiance relationships were investigated and the transmission in the visible spectrum and optical images were obtained as well. It was found that the transmittance of the VO₂(3-fl), VO(pbd)₂, VO(dbm)₂ and VPc, was practically independent of the irradiance; whereas the transmittance of V₂O₅-PEPC decreased by 4% for thin and 9% for thick film with an increase of the irradiance.

Key words: vanadium compound/composite, semiconductor, thin film, transmittance, irradiance

References

[1]	Parkin I P, Binions R, Piccirillo C, et al. Thermochromic coatings for intelligent architectural glazing. J Nano Research, 2008, 2: 1 http://www.scientific.net/JNanoR.2.1
[2]	Batista C, Teixeira V, Carneiro J. Structural and morphological characterization of magnetron sputtered nanocrystalline vanadium oxide films for thermochromic smart surfaces. J Nano Research, 2008, 2: 21 doi: 10.4028/www.scientific.net/JNanoR.2
[3]	Chain E E. Optical properties of vanadium dioxide and vanadium pentoxide thin films. Appl Opt, 1991, 30: 2782 doi: 10.1364/AO.30.002782
[4]	Maruyama T, Ikuta Y. Vanadium dioxide thin films prepared by chemical vapour deposition from vanadium(Ⅲ) acetylacetonate. J Mater Sci, 1993, 28: 5073 doi: 10.1007/BF00361182
[5]	Sahara M B, Shivashankar S A. Growth of nanowires of β-Na_xV₂O₅ by metalorganic chemical vapor deposition. J Mater Chem, 2003, 13: 2254 doi: 10.1039/B305569H
[6]	Benmoussa M, Ibnouelghazi E, Bennouna A, et al. Structural, electrical and optical properties of sputtered vanadium pentoxide thin films. Thin Solid Films, 1995, 265: 22 doi: 10.1016/0040-6090(95)06617-9
[7]	Qi J, Ning G, Qi X, et al. Structure and optical properties of VO₂ film derived from a low temperature sol-gel and facile thermal process. Optoelect Adv Mater Rapid Commun, 2010, 4: 194 doi: 10.1088/0953-8984/20/26/264016/meta
[8]	Batista C, Ribeiro R M, Teixeira V. Synthesis and characterization of VO₂-based thermochromic thin films for energy-efficient windows. Nanoscale Res Lett, 2011, 6: 301 doi: 10.1186/1556-276X-6-301
[9]	Mitzi D B, Chondroudis K, Kagan C R. Organic-inorganic electronics. IBM J Res Dev, 2001, 45: 29 doi: 10.1147/rd.451.0029
[10]	Gutman F, Lyons L E. Organic semiconductors. Part A. Robert E. Krieger Publishing Company, Malabar, Florida, 1981 http://www.nature.com/nnano/focus/organics/index.html
[11]	Gutman F, Keyzer H, Lyons L E, et al. Organic semiconductors. Part B. Robert E. Krieger Publishing Company, Malabar, Florida, 1983 https://en.wikipedia.org/wiki/Organic_semiconductor
[12]	Brutting W. Physics of organic semiconductors. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2005 https://www.amazon.com/Physics-Organic-Semiconductors-Wolfgang-tting/dp/3527410538
[13]	Karimov K S. Electric properties of quasi-one dimentional tetracyano-quino-dimethane ion-radical salts crystals under hydro-static pressure. PhD Thesis, Physical Techenical Institute, St. -Petersburg, USSR, 1982 doi: 10.1088/1674-4926/35/7/072002/meta
[14]	Karimov K S, Akhmedov K, Qazi I, et al. Poly-N-epoxypropylcarbazole complexes photocapacitive detectors. J Optoelectron Adv Mater, 2007, 9: 2867 doi: 10.1109%2fSIECPC.2011.5876964
[15]	Akhmedov K M, Karimov K S. Carbazolile polymers. Donish, Dushanbe, 2006 doi: 10.1007/s00289-010-0322-x
[16]	Tahir M M, Karimov K S. Fabrication of heterojunctions and current-voltage characteristics of vanadium coordination compounds. J Optoelectron Adv Mater, 2009, 11: 83 http://www.academia.edu/7781602/Transition_Metal_Oxides_and_Their_Composite_Thin_Films
[17]	Tahir M M, Brezina D, Fatima N, et al. Synthesis and characterization of mononuclear oxovandadium (Ⅳ) complexes and their enzyme inhibition studies with a carbohydrate metabolic enzyme, phosphodiesterase Ⅰ. J Inorg Biochem, 2005, 99: 589 doi: 10.1016/j.jinorgbio.2004.11.015
[18]	Epifanov G I, Moma Y A. Solid state electronics. Visshaia Shkola, Moscow, 1986 http://www.sciencedirect.com/science/journal/00381101
[19]	Yianoulis P, Giannouli M. Thin solid films and nanomaterials for solar energy conversion and energy saving applications. J Nano Research, 2008, 2: 49 doi: 10.4028/www.scientific.net/JNanoR.2
[20]	Brabec C J, Dyakonov V, Parisi J, et al. Organic photovoltaics: concepts and realization. Springer-Verlag, Berlin, Heidelberg, 2003 http://www.springer.com/us/book/9783540004059
[21]	Hadziioannou G, Van Hutten P F. Semi-conducting polymers: chemistry, physics and engineering. WILEY-VCH, Verlag GmbH, Weinheim, 2000 http://www.sciencedirect.com/science/article/pii/S092596350600505X

Fig. 1. The molecular structures of (1) VO$_{2}$(3-fl), (2) VO(pbd)$_{2}$, (3) VO(dbm)$_{2}$, (4) VPc, and (5) V$_{2}$O$_{5}$-PEPC.

DownLoad: Full-Size Img PowerPoint

Fig. 2. The optical images of (1) VO$_{2}$(3-fl), (2) VO(pbd)$_{2}$, (3) VO(dbm)$_{2}$, (4) VPc, and (5) V$_{2}$O$_{5}$-PEPC.

DownLoad: Full-Size Img PowerPoint

Fig. 3. Transmittance-input irradiance relationships for (1) VO$_{2}$(3-fl), (2) VO(pbd)$_{2}$, (3) VO(dbm)$_{2}$.

DownLoad: Full-Size Img PowerPoint

Fig. 4. Transmittance-input irradiance relationships for (4) VPc, (5) thin film and (6) thick film of V$_{2}$O$_{5}$-PEPC and (7) glass substrate.

DownLoad: Full-Size Img PowerPoint

[1]	Parkin I P, Binions R, Piccirillo C, et al. Thermochromic coatings for intelligent architectural glazing. J Nano Research, 2008, 2: 1 http://www.scientific.net/JNanoR.2.1
[2]	Batista C, Teixeira V, Carneiro J. Structural and morphological characterization of magnetron sputtered nanocrystalline vanadium oxide films for thermochromic smart surfaces. J Nano Research, 2008, 2: 21 doi: 10.4028/www.scientific.net/JNanoR.2
[3]	Chain E E. Optical properties of vanadium dioxide and vanadium pentoxide thin films. Appl Opt, 1991, 30: 2782 doi: 10.1364/AO.30.002782
[4]	Maruyama T, Ikuta Y. Vanadium dioxide thin films prepared by chemical vapour deposition from vanadium(Ⅲ) acetylacetonate. J Mater Sci, 1993, 28: 5073 doi: 10.1007/BF00361182
[5]	Sahara M B, Shivashankar S A. Growth of nanowires of β-Na_xV₂O₅ by metalorganic chemical vapor deposition. J Mater Chem, 2003, 13: 2254 doi: 10.1039/B305569H
[6]	Benmoussa M, Ibnouelghazi E, Bennouna A, et al. Structural, electrical and optical properties of sputtered vanadium pentoxide thin films. Thin Solid Films, 1995, 265: 22 doi: 10.1016/0040-6090(95)06617-9
[7]	Qi J, Ning G, Qi X, et al. Structure and optical properties of VO₂ film derived from a low temperature sol-gel and facile thermal process. Optoelect Adv Mater Rapid Commun, 2010, 4: 194 doi: 10.1088/0953-8984/20/26/264016/meta
[8]	Batista C, Ribeiro R M, Teixeira V. Synthesis and characterization of VO₂-based thermochromic thin films for energy-efficient windows. Nanoscale Res Lett, 2011, 6: 301 doi: 10.1186/1556-276X-6-301
[9]	Mitzi D B, Chondroudis K, Kagan C R. Organic-inorganic electronics. IBM J Res Dev, 2001, 45: 29 doi: 10.1147/rd.451.0029
[10]	Gutman F, Lyons L E. Organic semiconductors. Part A. Robert E. Krieger Publishing Company, Malabar, Florida, 1981 http://www.nature.com/nnano/focus/organics/index.html
[11]	Gutman F, Keyzer H, Lyons L E, et al. Organic semiconductors. Part B. Robert E. Krieger Publishing Company, Malabar, Florida, 1983 https://en.wikipedia.org/wiki/Organic_semiconductor
[12]	Brutting W. Physics of organic semiconductors. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2005 https://www.amazon.com/Physics-Organic-Semiconductors-Wolfgang-tting/dp/3527410538
[13]	Karimov K S. Electric properties of quasi-one dimentional tetracyano-quino-dimethane ion-radical salts crystals under hydro-static pressure. PhD Thesis, Physical Techenical Institute, St. -Petersburg, USSR, 1982 doi: 10.1088/1674-4926/35/7/072002/meta
[14]	Karimov K S, Akhmedov K, Qazi I, et al. Poly-N-epoxypropylcarbazole complexes photocapacitive detectors. J Optoelectron Adv Mater, 2007, 9: 2867 doi: 10.1109%2fSIECPC.2011.5876964
[15]	Akhmedov K M, Karimov K S. Carbazolile polymers. Donish, Dushanbe, 2006 doi: 10.1007/s00289-010-0322-x
[16]	Tahir M M, Karimov K S. Fabrication of heterojunctions and current-voltage characteristics of vanadium coordination compounds. J Optoelectron Adv Mater, 2009, 11: 83 http://www.academia.edu/7781602/Transition_Metal_Oxides_and_Their_Composite_Thin_Films
[17]	Tahir M M, Brezina D, Fatima N, et al. Synthesis and characterization of mononuclear oxovandadium (Ⅳ) complexes and their enzyme inhibition studies with a carbohydrate metabolic enzyme, phosphodiesterase Ⅰ. J Inorg Biochem, 2005, 99: 589 doi: 10.1016/j.jinorgbio.2004.11.015
[18]	Epifanov G I, Moma Y A. Solid state electronics. Visshaia Shkola, Moscow, 1986 http://www.sciencedirect.com/science/journal/00381101
[19]	Yianoulis P, Giannouli M. Thin solid films and nanomaterials for solar energy conversion and energy saving applications. J Nano Research, 2008, 2: 49 doi: 10.4028/www.scientific.net/JNanoR.2
[20]	Brabec C J, Dyakonov V, Parisi J, et al. Organic photovoltaics: concepts and realization. Springer-Verlag, Berlin, Heidelberg, 2003 http://www.springer.com/us/book/9783540004059
[21]	Hadziioannou G, Van Hutten P F. Semi-conducting polymers: chemistry, physics and engineering. WILEY-VCH, Verlag GmbH, Weinheim, 2000 http://www.sciencedirect.com/science/article/pii/S092596350600505X

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Received: 24 December 2013 Revised: 18 February 2014 Online: Published: 01 July 2014

Article Navigation > Journal of Semiconductors > 2014 > 35(7): 072002

Kh. S. Karimov, M. Mahroof-Tahir, M. Saleem, N. Ahmad, A. Rashid. Optical transmission in thin films of vanadium compounds[J]. Journal of Semiconductors, 2014, 35(7): 072002. doi: 10.1088/1674-4926/35/7/072002 Kh. S. Karimov, M. Mahroof-Tahir, M. Saleem, N. Ahmad, A. Rashid. Optical transmission in thin films of vanadium compounds[J]. J. Semicond., 2014, 35(7): 072002. doi: 10.1088/1674-4926/35/7/072002.Export: BibTex EndNote

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Kh. S. Karimov, M. Mahroof-Tahir, M. Saleem, N. Ahmad, A. Rashid. Optical transmission in thin films of vanadium compounds[J]. Journal of Semiconductors, 2014, 35(7): 072002. doi: 10.1088/1674-4926/35/7/072002

Kh. S. Karimov, M. Mahroof-Tahir, M. Saleem, N. Ahmad, A. Rashid. Optical transmission in thin films of vanadium compounds[J]. J. Semicond., 2014, 35(7): 072002. doi: 10.1088/1674-4926/35/7/072002.

Export: BibTex EndNote

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Kh. S. Karimov, M. Mahroof-Tahir, M. Saleem, N. Ahmad, A. Rashid. Optical transmission in thin films of vanadium compounds[J]. J. Semicond., 2014, 35(7): 072002. doi: 10.1088/1674-4926/35/7/072002.

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Optical transmission in thin films of vanadium compounds

doi: 10.1088/1674-4926/35/7/072002

1.
GIK Institute of Engineering Sciences and Technology, Topi, District Swabi, KPK 23640, Pakistan
2.
Physical Technical Institute of Academy of Sciences, Rudaki Ave, 33, Dushanbe 734025, Tajikistan
3.
Saint Cloud State University, 720 Fourth Avenue South, Saint Cloud, MN 56301-4498, USA
4.
Government College of Science, Wahdat Road, Lahore 54570, Pakistan

More Information

Corresponding author: M. Saleem, Email:msaleem108@hotmail.com, drsaleem@ymail.com
Received Date: 2013-12-24
Revised Date: 2014-02-18
Published Date: 2014-07-01

Abstract

Abstract

Thin films of five vanadium compounds/composite:(1) VO₂(3-fl) (3-fl=3-Hydroxyflavone), (2) VO(pbd)₂ (pbd=1-Phenyl-1, 3-butadione), (3) VO(dbm)₂ (dbm=Dibenzoylmethane), (4) VPc (Vanadyl Phthalocyanine) and (5) V₂O₅-PEPC (V₂O₅-poly-N-epoxypropylcarbazole composite), were deposited by the drop-casting method from the solution in benzene. The transmittance-irradiance relationships were investigated and the transmission in the visible spectrum and optical images were obtained as well. It was found that the transmittance of the VO₂(3-fl), VO(pbd)₂, VO(dbm)₂ and VPc, was practically independent of the irradiance; whereas the transmittance of V₂O₅-PEPC decreased by 4% for thin and 9% for thick film with an increase of the irradiance.
- vanadium compound/composite,
- semiconductor,
- thin film,
- transmittance,
- irradiance

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References(21)

References

[1]	Parkin I P, Binions R, Piccirillo C, et al. Thermochromic coatings for intelligent architectural glazing. J Nano Research, 2008, 2: 1 http://www.scientific.net/JNanoR.2.1
[2]	Batista C, Teixeira V, Carneiro J. Structural and morphological characterization of magnetron sputtered nanocrystalline vanadium oxide films for thermochromic smart surfaces. J Nano Research, 2008, 2: 21 doi: 10.4028/www.scientific.net/JNanoR.2
[3]	Chain E E. Optical properties of vanadium dioxide and vanadium pentoxide thin films. Appl Opt, 1991, 30: 2782 doi: 10.1364/AO.30.002782
[4]	Maruyama T, Ikuta Y. Vanadium dioxide thin films prepared by chemical vapour deposition from vanadium(Ⅲ) acetylacetonate. J Mater Sci, 1993, 28: 5073 doi: 10.1007/BF00361182
[5]	Sahara M B, Shivashankar S A. Growth of nanowires of β-Na_xV₂O₅ by metalorganic chemical vapor deposition. J Mater Chem, 2003, 13: 2254 doi: 10.1039/B305569H
[6]	Benmoussa M, Ibnouelghazi E, Bennouna A, et al. Structural, electrical and optical properties of sputtered vanadium pentoxide thin films. Thin Solid Films, 1995, 265: 22 doi: 10.1016/0040-6090(95)06617-9
[7]	Qi J, Ning G, Qi X, et al. Structure and optical properties of VO₂ film derived from a low temperature sol-gel and facile thermal process. Optoelect Adv Mater Rapid Commun, 2010, 4: 194 doi: 10.1088/0953-8984/20/26/264016/meta
[8]	Batista C, Ribeiro R M, Teixeira V. Synthesis and characterization of VO₂-based thermochromic thin films for energy-efficient windows. Nanoscale Res Lett, 2011, 6: 301 doi: 10.1186/1556-276X-6-301
[9]	Mitzi D B, Chondroudis K, Kagan C R. Organic-inorganic electronics. IBM J Res Dev, 2001, 45: 29 doi: 10.1147/rd.451.0029
[10]	Gutman F, Lyons L E. Organic semiconductors. Part A. Robert E. Krieger Publishing Company, Malabar, Florida, 1981 http://www.nature.com/nnano/focus/organics/index.html
[11]	Gutman F, Keyzer H, Lyons L E, et al. Organic semiconductors. Part B. Robert E. Krieger Publishing Company, Malabar, Florida, 1983 https://en.wikipedia.org/wiki/Organic_semiconductor
[12]	Brutting W. Physics of organic semiconductors. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2005 https://www.amazon.com/Physics-Organic-Semiconductors-Wolfgang-tting/dp/3527410538
[13]	Karimov K S. Electric properties of quasi-one dimentional tetracyano-quino-dimethane ion-radical salts crystals under hydro-static pressure. PhD Thesis, Physical Techenical Institute, St. -Petersburg, USSR, 1982 doi: 10.1088/1674-4926/35/7/072002/meta
[14]	Karimov K S, Akhmedov K, Qazi I, et al. Poly-N-epoxypropylcarbazole complexes photocapacitive detectors. J Optoelectron Adv Mater, 2007, 9: 2867 doi: 10.1109%2fSIECPC.2011.5876964
[15]	Akhmedov K M, Karimov K S. Carbazolile polymers. Donish, Dushanbe, 2006 doi: 10.1007/s00289-010-0322-x
[16]	Tahir M M, Karimov K S. Fabrication of heterojunctions and current-voltage characteristics of vanadium coordination compounds. J Optoelectron Adv Mater, 2009, 11: 83 http://www.academia.edu/7781602/Transition_Metal_Oxides_and_Their_Composite_Thin_Films
[17]	Tahir M M, Brezina D, Fatima N, et al. Synthesis and characterization of mononuclear oxovandadium (Ⅳ) complexes and their enzyme inhibition studies with a carbohydrate metabolic enzyme, phosphodiesterase Ⅰ. J Inorg Biochem, 2005, 99: 589 doi: 10.1016/j.jinorgbio.2004.11.015
[18]	Epifanov G I, Moma Y A. Solid state electronics. Visshaia Shkola, Moscow, 1986 http://www.sciencedirect.com/science/journal/00381101
[19]	Yianoulis P, Giannouli M. Thin solid films and nanomaterials for solar energy conversion and energy saving applications. J Nano Research, 2008, 2: 49 doi: 10.4028/www.scientific.net/JNanoR.2
[20]	Brabec C J, Dyakonov V, Parisi J, et al. Organic photovoltaics: concepts and realization. Springer-Verlag, Berlin, Heidelberg, 2003 http://www.springer.com/us/book/9783540004059
[21]	Hadziioannou G, Van Hutten P F. Semi-conducting polymers: chemistry, physics and engineering. WILEY-VCH, Verlag GmbH, Weinheim, 2000 http://www.sciencedirect.com/science/article/pii/S092596350600505X

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