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Role of the Oxide Layer on the Performances of a-Si:H Schottky Structures Applied to PDS Fabrication

Published online by Cambridge University Press:  01 February 2011

Hugo Aguas
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal, +351 21 294 85 64, +351 21 295 78 10
Luis Pereira
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal
Daniel Costa
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal
Leandro Raniero
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal
Elvira Fortunato
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal
Rodrigo Martins
Affiliation:
[email protected], Faculdade de Ciências e Tecnologia - Universidade Nova de Lisboa, Ciência dos Materiais, Campus da FCT, Quinta da Torre, Caparica, N/A, 2829-516, Portugal
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Abstract

In this work we present results of studies performed on Schottky and MIS (metal-insulator – semiconductor) PSD (position sensitive detectors) structures: substrate (glass)/ Cr (300 nm) / a-Si:H [n] (37 nm) / a-Si:H [i] (600 nm) / SiO2 (1.5 nm – for the MIS) / Au (7 nm). The effect of the interfacial oxide layer between Au and a-Si:H, for the MIS structures, was studied and compared with the Schottky, in order to determine how beneficial it could be for device performances and time degradation. For doing so, the Au thickness of 70Å was deposited by thermal evaporation on an oxide free (Schottky) and oxidized (20Å) (MIS) a-Si:H surfaces. These structures were characterized by SIMS, RBS, SEM and AFM in order to correlate the obtained diffusion profile of Au at the interface and the topography with the presence of the oxide at the interface. The results show that the Au inter-diffuses very easily in the oxide free a-Si:H surface, even at room temperature, degrading the devices performance. On the other hand, the MIS structures, with their interfacial oxide present no structural changes after annealing and the PSD produced are stable. We believe that this effect is associated with the barrier effect of the interfacial oxide that prevents the Au diffusion. The optimized 1D MIS sensors are stable and exhibit a linearity error as low as 0.8 % and sensitivities of 33 mV/cm for a 5 mW spot beam intensity at a wavelength of 532 nm, while the Schottky sensors showed a time degradation of their characteristics.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

references

[1] Akita, S., Ueda, H., Nakayama, Y., J. Appl. Phys. 77, 1120 (1995).Google Scholar
[2] Sze, S.M., Physics of Semiconductor Devices, Jonh Wiley, New York, cap. 13 (1981).Google Scholar
[3] Poate, J.M., Jacobson, D.C., Williams, J.S., Elliman, R.G., Boerma, D.O., Nuclear Inst. and Methods in Physics Resc. B19–20, 480 (1987).Google Scholar
[4] Stolwijk, N.A., Schuster, B., Holzl, J., Mehrer, H., Frank, W., Physica B116, 335 (1983).Google Scholar
[5] Hara, T., Enomoto, S., Yamamoto, H., Tsukada, T., J. of Non-Crystall. Solids 59–60, 521 (1983).Google Scholar
[6] Águas, H., Gonçalves, A., Pereira, L., Silva, R., Fortunato, E., Martins, R., Thin Solid Films 427, 345 (2003).Google Scholar
[7] Fortunato, E., Teodoro, P., Silva, V., Ferreira, I., Nunes, Y., Guimarães, N., Soares, F., Giuliani, F., Popovic, G., Brener, W. and Martins, R.. Phil. Mag. B, 80, 765 (2000).Google Scholar
[7] Fortunato, E., Lavareda, G., Martins, R., Soares, F., Fernandes, L., Sens. & Actuat. A51, 135 (1996).Google Scholar
[8] Coffa, S., Poate, J. M., Jacobson, D.C., Frank, W., Gustin, W., Phys. Review B45, 8355 (1992).Google Scholar
[9] Hiraki, Akio, Lugujjo, Eriabu, and Mayer, J.W., J. Appl. Phys. 43, 3643 (1972).Google Scholar
[10] Yoon, S.Y., Park, S.J., Kim, K.H., Jang, J., Thin Solid Films 383, 34 (2001).Google Scholar