A Study on Sb and F Doped Tin Oxide Thin Films Preparing in Condition of Different Temperature and Molarity and Their Physical Comparison
Öz
This article is about tin oxide (SnO2:Sb:F) thin films prepared (7 samples at each experiment step) successfully on the glass substrate by using spray pyrolysis method. Different solution molarities and different substrate temperatures were used to prepare precursor solution and fabricate thin films, respectively. And then these thin film’s structural, optical and morphological properties were compared. XRD patterns displayed that the deposited films were polycrystalline with tetragonal structure irrespective of molarity and substrate temperature. Each film has a transmittance of more than 60% in visible region. Optical band gap values were found to be in the range of 3.74-3.95 eV. The SEM and AFM images demonstrated that nanocrystalline particles covered all film surfaces. The best optimum property was found at thin films (0.15 M) prepared with at 520 ˚C and the grains are larger for thin films at 520 C when compared with 480 C. Finally, it is understood that when substrate temperature and molarity increased, more regular structure was obtained.
Anahtar Kelimeler
spray pyrolysis SnO2:Sb:F thin films solution molarity and substrate temperatures
Teşekkür
The authors thank for support to The Council of Higher Education and Atatürk University Scientific Research Projects (2011/218) Centre Turkey.
Kaynakça
- Battal A, Tatar D, Kocyigit A, Duzgun B, 2015. Materials Focus, 4: 445-456.
- Carvalho DHQ, Schiavon MA, Raposo MT, de Paiva R, Alves JLA, Paniago RM, Speziali NL, Ferlauto AS, Ardisson JD, 2012. 15th Brazilian Workshop on Semiconductor Physics, 28: 22-27.
- El-Zahed H, El-Korashy A, Rahem MA, 2002. Vacuum, 68: 19-27.
- Huang H, Ng MH, Wu YL, Kong LB, 2015. Materials & Design, 88: 384-389.
- Ikhmayies, S.J. and Ahmad-Bitar, R.N., 2012. Using HF rather than NH4F as doping source for spray-deposited SnO2:F thin films. Journal of Central South University of Technology, 19, 791-796.
- Kadhim IH, Abu Hassan H, 2017. Journal of Electronic Materials, 46: 1419-1426.
- Kou XY, Xie N, Chen F, Wang TS, Guo LL, Wang C, Wang QJ, J Ma, Sun YF, Zhang H, Lu GY, 2018. Sensors and Actuators B-Chemical, 256: 861-869.
- Kumar KDA, Valanarasu S, Jeyadheepan K, Kim H-S, Vikraman D, 2017. Journal of Materials Science: Materials in Electronics, 29: 3648-3656.
- Liu, XZ, Ning, HL, Chen, WF, Fang, ZQ, Yao, RH, Wang, XF, Deng, YX, Yuan, WJ, Wu, WJ, Peng, JB, 2018. Nanomaterials, 8: 293-307.
- Martin EJJ, Yan M, Lane M, Ireland J, Kannewurf CR, Chang RPH, 2004. Thin Solid Films, 461: 309-315.
- Moholkar, A.V., Pawar, S.M., Rajpure, K.Y. and Bhosale, C.H., 2008a. Effect of concentration of SnCl4 on sprayed fluorine doped tin oxide thin films. Journal of Alloys and Compounds, 455, 440-446.
- Moholkar, A.V., Pawar, S.M., Rajpure, K.Y., Almaric, S.N., Patil, P.S. and Bhosale, C.H., 2008b. Solvent-dependent growth of sprayed FTO thin films with mat-like morphology. Solar Energy Material Solar Cells. 92, 1439-1444.
- Musyaro'ah, IH, Indayani W, Gunawan B, Yudhoyono G, Endarko, 2017. International Conference on Engineering, Science and Nanotechnology, 2016. (Icesnano 2016), 1788.
- Priyadarshini DM, Mannam R, Rao MSR, DasGupta N, 2017. Applied Surface Science, 418: 414-417.
- Ravichandran K, Muruganantham G, Sakthivel B, Philominathan P, 2009. Journal of Ovonic Research, 5: 63-69.
- Ravichandran K, Muruganantham G, Saravanakumar K, Karnan S, Kannan B, Chandramohan R, Sakthivel B, 2009. Surface Engineering, 25: 82-87.
- Tripathi A, Shukla RK, 2014. Bulletin of Materials Science, 37: 417-423.
- Vazquez-Arreguin, R, Aguilar-Frutis, M, Falcony-Guajardo, C, Castaneda-Galvan, A, Mariscal-Becerra, L, Gallardo-Hernandez, S, Alarcon-Flores, G, Garcia-Rocha, M, 2016. ECS Journal of Solid State Science And Technology, 5: 3, Q101- Q 107.
- Vikraman D, Park HJ, Kim SI, Thaiyan M, 2016. Journal of Alloys and Compounds, 686: 616-627.
- Wohlmuth W, Adesida I, Thin Solid Films, 2015. 479: 223-231.
- Yusoff, ARBM , Gavim, AEX, Macedo, AG, da Silva, WJ, Schneider, FK, Teridi, MAM, 2018. Materials Today Chemistry, 10: 104-111.
- Yuwono AH, Arini T, Lalasari LH, Sofyan N, Ramahdita G, Nararya A, Firdiyono F, Andriyah L, Subhan A, 2017. International Journal of Technology, 8: 1336.
- Zhu BL, Liu F, Li K, Lv K, Wu J, Gan ZH, Liu J, Zeng DW, Xie CS, 2017. Ceramics International, 43: 10288-10298.
Öz
Kaynakça
- Battal A, Tatar D, Kocyigit A, Duzgun B, 2015. Materials Focus, 4: 445-456.
- Carvalho DHQ, Schiavon MA, Raposo MT, de Paiva R, Alves JLA, Paniago RM, Speziali NL, Ferlauto AS, Ardisson JD, 2012. 15th Brazilian Workshop on Semiconductor Physics, 28: 22-27.
- El-Zahed H, El-Korashy A, Rahem MA, 2002. Vacuum, 68: 19-27.
- Huang H, Ng MH, Wu YL, Kong LB, 2015. Materials & Design, 88: 384-389.
- Ikhmayies, S.J. and Ahmad-Bitar, R.N., 2012. Using HF rather than NH4F as doping source for spray-deposited SnO2:F thin films. Journal of Central South University of Technology, 19, 791-796.
- Kadhim IH, Abu Hassan H, 2017. Journal of Electronic Materials, 46: 1419-1426.
- Kou XY, Xie N, Chen F, Wang TS, Guo LL, Wang C, Wang QJ, J Ma, Sun YF, Zhang H, Lu GY, 2018. Sensors and Actuators B-Chemical, 256: 861-869.
- Kumar KDA, Valanarasu S, Jeyadheepan K, Kim H-S, Vikraman D, 2017. Journal of Materials Science: Materials in Electronics, 29: 3648-3656.
- Liu, XZ, Ning, HL, Chen, WF, Fang, ZQ, Yao, RH, Wang, XF, Deng, YX, Yuan, WJ, Wu, WJ, Peng, JB, 2018. Nanomaterials, 8: 293-307.
- Martin EJJ, Yan M, Lane M, Ireland J, Kannewurf CR, Chang RPH, 2004. Thin Solid Films, 461: 309-315.
- Moholkar, A.V., Pawar, S.M., Rajpure, K.Y. and Bhosale, C.H., 2008a. Effect of concentration of SnCl4 on sprayed fluorine doped tin oxide thin films. Journal of Alloys and Compounds, 455, 440-446.
- Moholkar, A.V., Pawar, S.M., Rajpure, K.Y., Almaric, S.N., Patil, P.S. and Bhosale, C.H., 2008b. Solvent-dependent growth of sprayed FTO thin films with mat-like morphology. Solar Energy Material Solar Cells. 92, 1439-1444.
- Musyaro'ah, IH, Indayani W, Gunawan B, Yudhoyono G, Endarko, 2017. International Conference on Engineering, Science and Nanotechnology, 2016. (Icesnano 2016), 1788.
- Priyadarshini DM, Mannam R, Rao MSR, DasGupta N, 2017. Applied Surface Science, 418: 414-417.
- Ravichandran K, Muruganantham G, Sakthivel B, Philominathan P, 2009. Journal of Ovonic Research, 5: 63-69.
- Ravichandran K, Muruganantham G, Saravanakumar K, Karnan S, Kannan B, Chandramohan R, Sakthivel B, 2009. Surface Engineering, 25: 82-87.
- Tripathi A, Shukla RK, 2014. Bulletin of Materials Science, 37: 417-423.
- Vazquez-Arreguin, R, Aguilar-Frutis, M, Falcony-Guajardo, C, Castaneda-Galvan, A, Mariscal-Becerra, L, Gallardo-Hernandez, S, Alarcon-Flores, G, Garcia-Rocha, M, 2016. ECS Journal of Solid State Science And Technology, 5: 3, Q101- Q 107.
- Vikraman D, Park HJ, Kim SI, Thaiyan M, 2016. Journal of Alloys and Compounds, 686: 616-627.
- Wohlmuth W, Adesida I, Thin Solid Films, 2015. 479: 223-231.
- Yusoff, ARBM , Gavim, AEX, Macedo, AG, da Silva, WJ, Schneider, FK, Teridi, MAM, 2018. Materials Today Chemistry, 10: 104-111.
- Yuwono AH, Arini T, Lalasari LH, Sofyan N, Ramahdita G, Nararya A, Firdiyono F, Andriyah L, Subhan A, 2017. International Journal of Technology, 8: 1336.
- Zhu BL, Liu F, Li K, Lv K, Wu J, Gan ZH, Liu J, Zeng DW, Xie CS, 2017. Ceramics International, 43: 10288-10298.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Metroloji,Uygulamalı ve Endüstriyel Fizik |
| Bölüm | Fizik / Physics |
| Yazarlar | |
| Yayımlanma Tarihi | 1 Haziran 2019 |
| Gönderilme Tarihi | 2 Ekim 2018 |
| Kabul Tarihi | 8 Şubat 2019 |
| Yayımlandığı Sayı | Yıl 2019 |