Araştırma Makalesi
Yıl 2021,
Cilt: 4 Sayı: 1, 8 - 12, 02.08.2021
Öz
Zinc aluminum oxide (ZnAl2O4) type spinel samples doped with Y at various amounts of 0, 5, 10, and 15 at.% were produced and characterized for this study. Both X-ray diffraction (XRD) and Fourier transform infrared (FTIR) analyses confirmed the formation of the ZnAl2O4 phase for all the samples. For the spinels doped with Y at the amounts of 10 and 15 at.%, the formation of the secondary phase of Y2O3 was detected. The average crystallite size, lattice constant, unit cell volume, and crystallinity were affected by Y content, as well as the morphology.
Anahtar Kelimeler
Kaynakça
- D. Dwibedi, C. Murugesan, M. Leskes and P. Barpanda, Role of annealing temperature on cation ordering in hydrothermally prepared zinc aluminate (ZnAl2O4) spinel, Mater. Res. Bull., 2018, 98, 219–224.
- M. Kumar and S.K. Gupta, An insight into optical spectroscopy of intense green emitting ZnAl2O4: Tb3+ nanoparticles: photo, thermally stimulated luminescence and EPR study, J. Lumin, 2015, 168, 151–157.
- P. Kumari, Y. Dwivedi and A. Bahadur, Analysis of bright red-orange emitting Mn2+: ZnAl2O4 spinel nanophosphor, Optik, 2018, 154, 126–132.
- A. Belyaev, L. Basyrova, V. Sysoev, M. Lelet, S. Balabanov, V. Kalganov, V. Mikhailovski, M. Baranov, E. Stepanidenko, V. Vitkin, O. Dymshits and P. Loiko, Microstructure, doping and optical properties of Co2+: ZnAl2O4 transparent ceramics for saturable absorbers: Effect of the ZnF2 sintering additive, J. Alloys Compd, 2020, 829, 154514.
- M. Mohapatra, M. Kumar and R.M. Kadam, Trap level spectroscopic investigations of U: ZnAl2O4: Role of defect centres in the TSL process, J Phys Chem Solids, 2018, 114, 83–87.
- S.F. Wang, Y.T. Tsai and J.P.Chu, Resistive switching characteristics of a spinel ZnAl2O4 thin film prepared by radio frequency sputtering, Ceram. Int., 2016, 42, 17673–17679.
- A. Movasati, S.M. Alavi and G. Mazloom, Dry reforming of methane over CeO2-ZnAl2O4 supported Ni and Ni-Co nanocatalysts, Fuel, 2019, 236, 1254–1262.
- R. Yang, A. Han, M. Ye, X. Chen and L. Yuan, The influence of Mn/N-codoping on the thermal performance of ZnAl2O4 as high near-infrared reflective inorganic pigment, J. Alloys Compd., 2017, 696, 1329-1341.
- T.K. Parya, R.K. Bhattacharyya, S. Banerjee and U.B. Adhikari, Co-precipitated ZnAl2O4 spinel precursor as potential sintering aid for pure alumina system, Ceram. Int., 2010, 36, 1211–1215.
- R. Ianoş, R. Băbuţă, C. Păcurariu, R. Lazău, R. Istratie and C. Butaciu, Combustion synthesis of ZnAl2O4 powders with tuned surface area, Ceram. Int., 2017, 43, 8975–8981.
- Q. Pan, S. Ye, D. Yang, J. Qiu and G. Dong, Multifunctional magnetic-fluorescent Ni-doped ZnAl2O4 nanoparticles with second biological NIR window fluorescence, Mater. Res. Bull., 2017, 93, 310–317.
- D. Zhang, Y. Yin, Y. Liu, W. Chao and Y. Zhai, The photoluminescence and magnetic properties of ZnAl2O4: Mn nanocrystals, J Phys Chem Solids, 2013, 74, 1131–1135.
- N. Peillon, F. Zuo, C. Meunier, S. Saunier, S. Marinel and D. Goeuriot, In-situ studies on preparation of ZnAl2O4 spinel using microwave reactive sintering technique, Mater. Lett., 2016, 167, 77–80.
- A.D. Ballarini, S.A. Bocanegra, A.A. Castro, S.R. de Miguel and O.A. Scelza, Characterization of ZnAl2O4 obtained by different methods and used as catalytic support of Pt., Catal. Lett., 2009, 129, 293–302.
- A.V. Belyaev, M.I. Lelet, N.I. Kirillova, N.M. Khamaletdinova, M.S. Boldin, A.A. Murashov and S.S. Balabanov, Sol-gel synthesis and characterization of ZnAl2O4 powders for transparent ceramics, Ceram. Int., 2019, 45, 4835–4839.
- O. Kaygili, N. Bulut, T. Ates, I. Ercan, S. Koytepe, T. Seckin, C. Tatar, B. Gunduz and H. Kebiroglu, Structural and thermal properties of Zn-containing magnesium aluminate spinels obtained by wet chemical method, Mater. Sci.-Poland, 2019, 37, 238-243.
- O. Kaygili, Synthesis and characterization of Na2O–CaO–SiO2 glass–ceramic, J. Therm. Anal. Calorim, 2014, 117, 223–227.
- P.K. Haldar, S. Dey, S. Mukhopadhyay and T.K. Parya, Structural and optical properties of Ti4+ doped sintered ZnAl2O4 ceramics, Interceram. - Int. Ceram. Rev., 2014, 63, 382–385.
- T.S. Nirmala, N. Iyandurai, S. Yuvaraj and M. Sundararajan, Effect of Cu2+ ions on structural, morphological, optical and magnetic behaviors of ZnAl2O4 spinel, Mater. Res. Express, 2020, 7, 046104.
- M.K. Habibi, S.M. Rafiaei, A. Alhaji and M. Zare, ZnAl2O4: Ce3+ phosphors: Study of crystal structure, microstructure, photoluminescence properties and efficient adsorption of Congo red dye, J. Mol. Struct., 2021, 1228, 129769.
- W. Mekprasart, K. Boonyarattanakalin, W. Pecharapa and K.N. Ishihara, Optical characteristics of samarium doped ZnAl2O4 nanomaterials synthesized by vibrational milling process, Mater. Today-Proc., 2018, 5, 14126–14130.
- W. Staszak, M. Zawadzki and J. Okal, Solvothermal synthesis and characterization of nanosized zinc aluminate spinel used in iso-butane combustion, J. Alloys Compd., 2010, 492, 500–507.
Yıl 2021,
Cilt: 4 Sayı: 1, 8 - 12, 02.08.2021
Öz
Kaynakça
- D. Dwibedi, C. Murugesan, M. Leskes and P. Barpanda, Role of annealing temperature on cation ordering in hydrothermally prepared zinc aluminate (ZnAl2O4) spinel, Mater. Res. Bull., 2018, 98, 219–224.
- M. Kumar and S.K. Gupta, An insight into optical spectroscopy of intense green emitting ZnAl2O4: Tb3+ nanoparticles: photo, thermally stimulated luminescence and EPR study, J. Lumin, 2015, 168, 151–157.
- P. Kumari, Y. Dwivedi and A. Bahadur, Analysis of bright red-orange emitting Mn2+: ZnAl2O4 spinel nanophosphor, Optik, 2018, 154, 126–132.
- A. Belyaev, L. Basyrova, V. Sysoev, M. Lelet, S. Balabanov, V. Kalganov, V. Mikhailovski, M. Baranov, E. Stepanidenko, V. Vitkin, O. Dymshits and P. Loiko, Microstructure, doping and optical properties of Co2+: ZnAl2O4 transparent ceramics for saturable absorbers: Effect of the ZnF2 sintering additive, J. Alloys Compd, 2020, 829, 154514.
- M. Mohapatra, M. Kumar and R.M. Kadam, Trap level spectroscopic investigations of U: ZnAl2O4: Role of defect centres in the TSL process, J Phys Chem Solids, 2018, 114, 83–87.
- S.F. Wang, Y.T. Tsai and J.P.Chu, Resistive switching characteristics of a spinel ZnAl2O4 thin film prepared by radio frequency sputtering, Ceram. Int., 2016, 42, 17673–17679.
- A. Movasati, S.M. Alavi and G. Mazloom, Dry reforming of methane over CeO2-ZnAl2O4 supported Ni and Ni-Co nanocatalysts, Fuel, 2019, 236, 1254–1262.
- R. Yang, A. Han, M. Ye, X. Chen and L. Yuan, The influence of Mn/N-codoping on the thermal performance of ZnAl2O4 as high near-infrared reflective inorganic pigment, J. Alloys Compd., 2017, 696, 1329-1341.
- T.K. Parya, R.K. Bhattacharyya, S. Banerjee and U.B. Adhikari, Co-precipitated ZnAl2O4 spinel precursor as potential sintering aid for pure alumina system, Ceram. Int., 2010, 36, 1211–1215.
- R. Ianoş, R. Băbuţă, C. Păcurariu, R. Lazău, R. Istratie and C. Butaciu, Combustion synthesis of ZnAl2O4 powders with tuned surface area, Ceram. Int., 2017, 43, 8975–8981.
- Q. Pan, S. Ye, D. Yang, J. Qiu and G. Dong, Multifunctional magnetic-fluorescent Ni-doped ZnAl2O4 nanoparticles with second biological NIR window fluorescence, Mater. Res. Bull., 2017, 93, 310–317.
- D. Zhang, Y. Yin, Y. Liu, W. Chao and Y. Zhai, The photoluminescence and magnetic properties of ZnAl2O4: Mn nanocrystals, J Phys Chem Solids, 2013, 74, 1131–1135.
- N. Peillon, F. Zuo, C. Meunier, S. Saunier, S. Marinel and D. Goeuriot, In-situ studies on preparation of ZnAl2O4 spinel using microwave reactive sintering technique, Mater. Lett., 2016, 167, 77–80.
- A.D. Ballarini, S.A. Bocanegra, A.A. Castro, S.R. de Miguel and O.A. Scelza, Characterization of ZnAl2O4 obtained by different methods and used as catalytic support of Pt., Catal. Lett., 2009, 129, 293–302.
- A.V. Belyaev, M.I. Lelet, N.I. Kirillova, N.M. Khamaletdinova, M.S. Boldin, A.A. Murashov and S.S. Balabanov, Sol-gel synthesis and characterization of ZnAl2O4 powders for transparent ceramics, Ceram. Int., 2019, 45, 4835–4839.
- O. Kaygili, N. Bulut, T. Ates, I. Ercan, S. Koytepe, T. Seckin, C. Tatar, B. Gunduz and H. Kebiroglu, Structural and thermal properties of Zn-containing magnesium aluminate spinels obtained by wet chemical method, Mater. Sci.-Poland, 2019, 37, 238-243.
- O. Kaygili, Synthesis and characterization of Na2O–CaO–SiO2 glass–ceramic, J. Therm. Anal. Calorim, 2014, 117, 223–227.
- P.K. Haldar, S. Dey, S. Mukhopadhyay and T.K. Parya, Structural and optical properties of Ti4+ doped sintered ZnAl2O4 ceramics, Interceram. - Int. Ceram. Rev., 2014, 63, 382–385.
- T.S. Nirmala, N. Iyandurai, S. Yuvaraj and M. Sundararajan, Effect of Cu2+ ions on structural, morphological, optical and magnetic behaviors of ZnAl2O4 spinel, Mater. Res. Express, 2020, 7, 046104.
- M.K. Habibi, S.M. Rafiaei, A. Alhaji and M. Zare, ZnAl2O4: Ce3+ phosphors: Study of crystal structure, microstructure, photoluminescence properties and efficient adsorption of Congo red dye, J. Mol. Struct., 2021, 1228, 129769.
- W. Mekprasart, K. Boonyarattanakalin, W. Pecharapa and K.N. Ishihara, Optical characteristics of samarium doped ZnAl2O4 nanomaterials synthesized by vibrational milling process, Mater. Today-Proc., 2018, 5, 14126–14130.
- W. Staszak, M. Zawadzki and J. Okal, Solvothermal synthesis and characterization of nanosized zinc aluminate spinel used in iso-butane combustion, J. Alloys Compd., 2010, 492, 500–507.
Toplam 22 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Metroloji,Uygulamalı ve Endüstriyel Fizik |
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 2 Ağustos 2021 |
| Gönderilme Tarihi | 18 Nisan 2021 |
| Kabul Tarihi | 3 Mayıs 2021 |
| Yayımlandığı Sayı | Yıl 2021 Cilt: 4 Sayı: 1 |
Kaynak Göster
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