Optical and Electrical Characterization of the Metal Oxide Composites by Hydrothermal Method
Yıl 2019,
, 43 - 50, 30.06.2019
Canan Aksu Canbay
,
Rekawt Khdir Hamad
İskender Ozkul
Öz
Metal oxide and
metallic composites are commonly used in material science. Oxides can perform
different physical features by small shift during synthesis. That commonly
tends innovative results. In this study copper phthalocyanine based four
different composite semiconductor materials fabricated by hydrothermal method.
The samples were analyzed by optical and electrical characterization
measurements. Reflectance, band gap values and conductivity results obtained
and presented as graphics with discussion.
Destekleyen Kurum
This work is financially supported by FÜBAP, Project No: FF.16.33
Kaynakça
- [1] P. Ayyub, V. Palkar, S. Chattopadhyay and M. Multani, Physical Review B, 51 (9) (1995) 6135.
- [2] M. Fernandez-Garcia, A. Martinez-Arias, J. Hanson and J. Rodriguez, Chemical Reviews, 104 (9) (2004) 4063-4104.
- [3] H. Gleiter, Nanostructured materials, 6 (1-4) (1995) 3-14.
- [4] M. S. Tokumoto, S. H. Pulcinelli, C. V. Santilli and V. Briois, The Journal of Physical Chemistry B, 107 (2) (2003) 568-574.
- [5] A. Aimable, B. Xin, N. Millot and D. Aymes, Journal of Solid State Chemistry, 181 (1) (2008) 183-189.
- [6] J. McHale, A. Auroux, A. Perrotta and A. Navrotsky, Science, 277 (5327) (1997) 788-791.
- [7] H. Zhang and J. F. Banfield, Chemistry of materials, 17 (13) (2005) 3421-3425.
- [8] M. D. Hernández-Alonso, A. B. Hungría, A. Martínez-Arias, J. M. Coronado, J. C. Conesa, J. Soria and M. Fernández-García, Physical Chemistry Chemical Physics, 6 (13) (2004) 3524-3529.
- [9] R. Cammarata and K. Sieradzki, Physical review letters, 62 (17) (1989) 2005.
- [10] M. Fernández-García, X. Wang, C. Belver, A. Iglesias-Juez, J. C. Hanson and J. A. Rodriguez, Chemistry of materials, 17 (16) (2005) 4181-4193.
- [11] J. Hasnidawani, H. Azlina, H. Norita, N. Bonnia, S. Ratim and E. Ali, Procedia Chemistry, 19 (2016) 211-216.
- [12] M. El-Nahass, Z. El-Gohary and H. Soliman, Optics & Laser Technology, 35 (7) (2003) 523-531.
- [13] E. Jungyoon, S. Kim, E. Lim, K. Lee, D. Cha and B. Friedman, Applied Surface Science, 205 (1-4) (2003) 274-279.
- [14] E. Orti, J. Bredas and C. Clarisse, The Journal of chemical physics, 92 (2) (1990) 1228-1235.
- [15] J. Puigdollers, C. Voz, M. Fonrodona, S. Cheylan, M. Stella, J. Andreu, M. Vetter and R. Alcubilla, Journal of Non-Crystalline Solids, 352 (9-20) (2006) 1778-1782.
- [16] Z. Bao, A. J. Lovinger and A. Dodabalapur, Applied Physics Letters, 69 (20) (1996) 3066-3068.
- [17] K. Xiao, Y. Liu, G. Yu and D. Zhu, Synthetic metals, 1 (137) (2003) 991-992.
- [18] S. Martellucci, A. N. Chester and A. G. Mignani, Optical sensors and microsystems, (Springer, 2002) 3-315.
- [19] R. Hamad, Production and characterization of the metal oxide - organo metalic composites by hydrothermal method, (The Graduate School of Natural and Applied Science, Fırat University, Elazığ, Turkey, 2017) 1-67.
Yıl 2019,
, 43 - 50, 30.06.2019
Canan Aksu Canbay
,
Rekawt Khdir Hamad
İskender Ozkul
Kaynakça
- [1] P. Ayyub, V. Palkar, S. Chattopadhyay and M. Multani, Physical Review B, 51 (9) (1995) 6135.
- [2] M. Fernandez-Garcia, A. Martinez-Arias, J. Hanson and J. Rodriguez, Chemical Reviews, 104 (9) (2004) 4063-4104.
- [3] H. Gleiter, Nanostructured materials, 6 (1-4) (1995) 3-14.
- [4] M. S. Tokumoto, S. H. Pulcinelli, C. V. Santilli and V. Briois, The Journal of Physical Chemistry B, 107 (2) (2003) 568-574.
- [5] A. Aimable, B. Xin, N. Millot and D. Aymes, Journal of Solid State Chemistry, 181 (1) (2008) 183-189.
- [6] J. McHale, A. Auroux, A. Perrotta and A. Navrotsky, Science, 277 (5327) (1997) 788-791.
- [7] H. Zhang and J. F. Banfield, Chemistry of materials, 17 (13) (2005) 3421-3425.
- [8] M. D. Hernández-Alonso, A. B. Hungría, A. Martínez-Arias, J. M. Coronado, J. C. Conesa, J. Soria and M. Fernández-García, Physical Chemistry Chemical Physics, 6 (13) (2004) 3524-3529.
- [9] R. Cammarata and K. Sieradzki, Physical review letters, 62 (17) (1989) 2005.
- [10] M. Fernández-García, X. Wang, C. Belver, A. Iglesias-Juez, J. C. Hanson and J. A. Rodriguez, Chemistry of materials, 17 (16) (2005) 4181-4193.
- [11] J. Hasnidawani, H. Azlina, H. Norita, N. Bonnia, S. Ratim and E. Ali, Procedia Chemistry, 19 (2016) 211-216.
- [12] M. El-Nahass, Z. El-Gohary and H. Soliman, Optics & Laser Technology, 35 (7) (2003) 523-531.
- [13] E. Jungyoon, S. Kim, E. Lim, K. Lee, D. Cha and B. Friedman, Applied Surface Science, 205 (1-4) (2003) 274-279.
- [14] E. Orti, J. Bredas and C. Clarisse, The Journal of chemical physics, 92 (2) (1990) 1228-1235.
- [15] J. Puigdollers, C. Voz, M. Fonrodona, S. Cheylan, M. Stella, J. Andreu, M. Vetter and R. Alcubilla, Journal of Non-Crystalline Solids, 352 (9-20) (2006) 1778-1782.
- [16] Z. Bao, A. J. Lovinger and A. Dodabalapur, Applied Physics Letters, 69 (20) (1996) 3066-3068.
- [17] K. Xiao, Y. Liu, G. Yu and D. Zhu, Synthetic metals, 1 (137) (2003) 991-992.
- [18] S. Martellucci, A. N. Chester and A. G. Mignani, Optical sensors and microsystems, (Springer, 2002) 3-315.
- [19] R. Hamad, Production and characterization of the metal oxide - organo metalic composites by hydrothermal method, (The Graduate School of Natural and Applied Science, Fırat University, Elazığ, Turkey, 2017) 1-67.