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SILAR metodu ile hazırlanan CdS ince filmlerinin yapısal yüzeysel ve optik özellikleri üzerinde Mo katkısının etkisi

Yıl 2018, Cilt: 9 Sayı: 1, 81 - 88, 04.04.2018

Arzu Ekinci

Öz

CdS ve Mo (molibden) katkılı CdS nanopartiküllü (NP) ince filmler cam taban üzerine ardışık iyonik tabaka adsorsiyon ve reaksiyonu (SILAR) yöntemi kullanılarak oda sıcaklığında elde edildi. X- ışını kırınımı (XRD), elektron tarama mikroskopu SEM ve UV-vis spektrofotometresi kullanılarak hazırlanan CdS nanopartiküllü ince filmlerinin yapısal, yüzeysel ve optik özellikleri üzerinde Mo etkisi incelenmiştir. Ayrıca, Mo katkılı CdS ince filmlerin gerçek nicelik oranlarını belirlemek için EDS analizi yapıldı. X- ışını kırınım analizi Mo katkılı ince filmlerin ve saf CdS ince filmlerin kübik bir yapıya sahip polikristal olduğunu göstermiştir. Mo katkılı CdS ince filmlerin yüzeyleri katkısız CdS ince film yüzeylerinden daha düzgün olduğu ve molibden katkılı CdS ince filmlerin yüzey morfolojilerini değiştirmiştir. Optik özelliklerini ele aldığımızda ise, katkısız CdS NP ince filminin enerji bant aralığının Mo katkılı CdS NP ince filmlerinin enerji bant aralığından küçük olduğu gözlenmiştir. EDS haritalama sonuçları, Mo katkılı CdS tabakalarında Mo, Cd ve S elementlerinin eşit dağılım gösterdiğini göstermekte olup, Mo iyonlarının yüzey üzerinde birlikte birikmeden ziyade CdS tabakalarına düzgün şekilde katkıda bulunabileceğini göstermektedir. Mo katkılı CdS ince filmlere ait foton-akım dönüşüm verimi (IPCE) ölçümleri ve I-V ölçümleri yapılarak, ince filmlerin fotovoltaik özellikleri incelendi. Nanopartikül yapıya sahip ince filmlerin güneş pil verimliliği birbiri ile karşılaştırıldığında, saf ve Mo katkılı CdS NP’lerin güneş pil cihazları için uygun malzemeler olarak kullanılabileceği görülmüştür.

Anahtar Kelimeler

CdS Yarıiletken İnce Film Yapısal Özellikler Elektriksel Özellikler Optiksel Özellikler SILAR Metot

Kaynakça

  • Al-Douri Y.,Khasawneh Q., Kiwan S., Hashim U., Hamid S. A., Reshak A., Khenata R., (2014). Structural and optical insights to enhance solarcel performance of CdS nanostructures, Energy Conversion and Management, 82: 238-243.
  • Alamgir K.W.,Ahmad S., Hassan M.M., Naqvi A.H., (2014). Structural phase analysis, band gap tuning and fluorescence properties of Co doped TiO2 nanoparticles, Optical Materials, 38:278-285.
  • Dittrich T.,Belaidi A., Ennaoui A., (2011). Concepts of inorganic solid- state nano structured solar cells, Solar EnergyMaterialsand Solar Cells,95:1527-1536.
  • Dhawale D.S.,Dubal D.P., Phadatare M.R., Patil J.S.,Lokhande C., (2011). Synthesis and characterizations of CdS nanorods by SILAR method: effect of film thickness, Journal of MaterialsScience46:5009–5015.
  • Darianin R.S.,Emami Z., (2015). Structural and optical studies of CdS and CdS:Ag nanoneedles prepared by a SILAR method, Ceramics International, 41: 8820–8827
  • Han J.,Spanheimer C., Haindl G., Fu G., Krishnakumar V., Schaffner J., Fan C., Zhao K., Klein A., Jaegermann W., (2011). Optimized chemical bath deposited CdS layers for the improvement of CdTe solar cells, Solar Energy Materials and Solar Cells, 95, 816-820.
  • Ibrahim S.G.,Ubale A.U., (2014). Structural, electrical and optical properties of nanostructured Cd1_xFexS thin films deposited by chemical spray pyrolysis technique, Journal of Molecular Structure, 1076:291-298.
  • Kim M.J., Kim H.T., Kang J.K., Kim D.H., Lee D.H., Lee S.H., Sohn S.H., (2010).Effects of the surface roughness on optical properties of CdS thin films, Molecular Crystals and Liquid Crystals, 532:1,437-444
  • Li M.,Li J.C., (2006). Size effects on the band-gap of semiconductor compounds, Materials Letters, 60:2526-2529. Metin H., Erat S., Durmus S., Ari M., (2010). Annealing effect on CdS/SnO2 films grown by chemical bath deposition, Applied Surface Science 256: 5076-5081.
  • Mathew S., Joseph S.A., Radhakrishnan P., Nampoori V.P.N., Vallabhan C.P.G., (2011). Shifting of fluorescence peak in CdS nanoparticles by excitation wavelength change, J. Fluorescence. 21:1479–1484.
  • Pawar S.M.,Pawar B.S., Kim J.H., Joo O.S., Lokhande C.D., (2011). Recentstatus of Chemical bath deposited metal chalcogenide and metal oxide thin films, Current Applied Physics, 11, 117-161.
  • Ravichandran K.,Senthamilselvi V., (2013). Effect of indium doping level on certain physical properties of CdS films deposited using an improved SILAR technique, Applied Surface Science,270: 439-444.
  • Ravichandran K.,Nisha Banu N., Senthamil Selvi V., Muralidharan B., Arun T., (2016). Rectification of sulphurd eficiency defect in CdS based films by introducing a novel modification in the SILAR cyclicprocess, Journal of Alloys and Compounds, 687: 402-412
  • Salaramoli H.,Maleki E., Shariatinia Z., Ranjbar M.,(2013). CdS/CdSe quantum dotsco-sensitized solar cells with Cu2S counter electrode prepared by SILAR, spray pyrolysis and Zn–Cu alloy methods, Journal of Photochemistry and Photobiology A: Chemistry,271:56–64.
  • Sharma R.,Cai G., Shinde D.V., Patil S.A., Shaikh S.,Ghule A.V., Mane R.S., Han S.H., (2014). Poly electrolyte multilayer-assisted fabrication of p-Cu2S/n-CdS heterostructured thin-film photo transistors, Journal of Materials Chemistry C38: 8012-8017.
  • Uda H.,Yonezawa H., Ohtsubo Y., Kosaka M., Sonomura H., (2003). Thin CdS films Prepared by metal organic chemical vapor deposition, Solar Energy Materials and Solar Cells, 75: 219-226.
  • Williams B.L.,Major J.D., Bowen L., Phillips L., Zoppi G., Forbes I., Durose K., (2014). Challenges and prospects for developing CdS/CdTe substrate solar cells on Mofoils, Solar Energy Materials and Solar Cells,124: 31-38.
  • Yadav A.A.,Barote M.A., Masumdar E.U., (2010). CdSe Studies on cadmium selenide (CdSe) thin films deposited by spray pyrolysis, Materials Chemistry and Physics, 121: 53-57.
  • Yücel E., Güler N., Yücel Y., (2014) Optimization of deposition conditions of CdS thin films using response surface methodology, Journal of Alloys and Compounds, 589: 207-212.
  • Yücel, E., Yücel, Y., (2015). Optimization of zinc sulfide thin film coating process using response surface methodology, Journal of Materials Science: Materials in Electronics, 26:196-203.
  • Zha G.,Zhou H., Gao J., Wang T., Jie W., (2011). The growth and the interfacial layer of CdZnTe nano-crystalline films by vacuume vaporation, Vacuum, 86:242–245.

Yıl 2018, Cilt: 9 Sayı: 1, 81 - 88, 04.04.2018

Arzu Ekinci

Öz

Kaynakça

  • Al-Douri Y.,Khasawneh Q., Kiwan S., Hashim U., Hamid S. A., Reshak A., Khenata R., (2014). Structural and optical insights to enhance solarcel performance of CdS nanostructures, Energy Conversion and Management, 82: 238-243.
  • Alamgir K.W.,Ahmad S., Hassan M.M., Naqvi A.H., (2014). Structural phase analysis, band gap tuning and fluorescence properties of Co doped TiO2 nanoparticles, Optical Materials, 38:278-285.
  • Dittrich T.,Belaidi A., Ennaoui A., (2011). Concepts of inorganic solid- state nano structured solar cells, Solar EnergyMaterialsand Solar Cells,95:1527-1536.
  • Dhawale D.S.,Dubal D.P., Phadatare M.R., Patil J.S.,Lokhande C., (2011). Synthesis and characterizations of CdS nanorods by SILAR method: effect of film thickness, Journal of MaterialsScience46:5009–5015.
  • Darianin R.S.,Emami Z., (2015). Structural and optical studies of CdS and CdS:Ag nanoneedles prepared by a SILAR method, Ceramics International, 41: 8820–8827
  • Han J.,Spanheimer C., Haindl G., Fu G., Krishnakumar V., Schaffner J., Fan C., Zhao K., Klein A., Jaegermann W., (2011). Optimized chemical bath deposited CdS layers for the improvement of CdTe solar cells, Solar Energy Materials and Solar Cells, 95, 816-820.
  • Ibrahim S.G.,Ubale A.U., (2014). Structural, electrical and optical properties of nanostructured Cd1_xFexS thin films deposited by chemical spray pyrolysis technique, Journal of Molecular Structure, 1076:291-298.
  • Kim M.J., Kim H.T., Kang J.K., Kim D.H., Lee D.H., Lee S.H., Sohn S.H., (2010).Effects of the surface roughness on optical properties of CdS thin films, Molecular Crystals and Liquid Crystals, 532:1,437-444
  • Li M.,Li J.C., (2006). Size effects on the band-gap of semiconductor compounds, Materials Letters, 60:2526-2529. Metin H., Erat S., Durmus S., Ari M., (2010). Annealing effect on CdS/SnO2 films grown by chemical bath deposition, Applied Surface Science 256: 5076-5081.
  • Mathew S., Joseph S.A., Radhakrishnan P., Nampoori V.P.N., Vallabhan C.P.G., (2011). Shifting of fluorescence peak in CdS nanoparticles by excitation wavelength change, J. Fluorescence. 21:1479–1484.
  • Pawar S.M.,Pawar B.S., Kim J.H., Joo O.S., Lokhande C.D., (2011). Recentstatus of Chemical bath deposited metal chalcogenide and metal oxide thin films, Current Applied Physics, 11, 117-161.
  • Ravichandran K.,Senthamilselvi V., (2013). Effect of indium doping level on certain physical properties of CdS films deposited using an improved SILAR technique, Applied Surface Science,270: 439-444.
  • Ravichandran K.,Nisha Banu N., Senthamil Selvi V., Muralidharan B., Arun T., (2016). Rectification of sulphurd eficiency defect in CdS based films by introducing a novel modification in the SILAR cyclicprocess, Journal of Alloys and Compounds, 687: 402-412
  • Salaramoli H.,Maleki E., Shariatinia Z., Ranjbar M.,(2013). CdS/CdSe quantum dotsco-sensitized solar cells with Cu2S counter electrode prepared by SILAR, spray pyrolysis and Zn–Cu alloy methods, Journal of Photochemistry and Photobiology A: Chemistry,271:56–64.
  • Sharma R.,Cai G., Shinde D.V., Patil S.A., Shaikh S.,Ghule A.V., Mane R.S., Han S.H., (2014). Poly electrolyte multilayer-assisted fabrication of p-Cu2S/n-CdS heterostructured thin-film photo transistors, Journal of Materials Chemistry C38: 8012-8017.
  • Uda H.,Yonezawa H., Ohtsubo Y., Kosaka M., Sonomura H., (2003). Thin CdS films Prepared by metal organic chemical vapor deposition, Solar Energy Materials and Solar Cells, 75: 219-226.
  • Williams B.L.,Major J.D., Bowen L., Phillips L., Zoppi G., Forbes I., Durose K., (2014). Challenges and prospects for developing CdS/CdTe substrate solar cells on Mofoils, Solar Energy Materials and Solar Cells,124: 31-38.
  • Yadav A.A.,Barote M.A., Masumdar E.U., (2010). CdSe Studies on cadmium selenide (CdSe) thin films deposited by spray pyrolysis, Materials Chemistry and Physics, 121: 53-57.
  • Yücel E., Güler N., Yücel Y., (2014) Optimization of deposition conditions of CdS thin films using response surface methodology, Journal of Alloys and Compounds, 589: 207-212.
  • Yücel, E., Yücel, Y., (2015). Optimization of zinc sulfide thin film coating process using response surface methodology, Journal of Materials Science: Materials in Electronics, 26:196-203.
  • Zha G.,Zhou H., Gao J., Wang T., Jie W., (2011). The growth and the interfacial layer of CdZnTe nano-crystalline films by vacuume vaporation, Vacuum, 86:242–245.
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Arzu Ekinci 0000-0002-3068-8657

Yayımlanma Tarihi 4 Nisan 2018
Gönderilme Tarihi 8 Kasım 2017
Yayımlandığı Sayı Yıl 2018 Cilt: 9 Sayı: 1

Kaynak Göster

IEEE A. Ekinci, “SILAR metodu ile hazırlanan CdS ince filmlerinin yapısal yüzeysel ve optik özellikleri üzerinde Mo katkısının etkisi”, DÜMF MD, c. 9, sy. 1, ss. 81–88, 2018.
DUJE tarafından yayınlanan tüm makaleler, Creative Commons Atıf 4.0 Uluslararası Lisansı ile lisanslanmıştır. Bu, orijinal eser ve kaynağın uygun şekilde belirtilmesi koşuluyla, herkesin eseri kopyalamasına, yeniden dağıtmasına, yeniden düzenlemesine, iletmesine ve uyarlamasına izin verir. 24456