Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces

Husniye Guler; Ahmet Ozenbas

Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces

Year 2011, Volume: 24 Issue: 3, 517 - 525, 25.11.2011

Abstract

A study of intermetallic compound formation at the interface between copper thin film and silicon substrate is presented in this work. Two systems; Cu/Si and Cu-(5at%) Nb/Si, were studied. From the intermetallics formed at the interfaces of two systems; as a model, formation mechanisms of Cu_0.83Si_0.17 with and without niobium impurity were examined. Variations in values of parabolic rate constants and activation energies with Nb impurity content were determined. The samples were annealed at different temperatures and time intervals after vacuum deposition of the films. X-Ray, Scanning Electron Microscopy (SEM), and Energy Dispersive Spectroscopy (EDS) analysis showed the sequential formation of several intermetallic phases at the interfaces. Using this data, a model had been given about the formation of the observed intermetallic phases.

Key Words: Intermetallics, thin metal films, impurity effect,

reaction rate constants.

Keywords

Intermetallics, thin metal films, impurity effect, reaction rate constants.

References

Wang, Y., Gao, G., “Synthesis and enhanced intercalation properties of nanostructured vanadium oxides”, Chemistry of Materials, 18(12):2787-2804 (2006).
Selvan, R.K., Kalaiselvi, N., Augustin, C.O., Doh, C.H., “SnO2 pinning: An aproach to enhance the electrochemical properties of nanocrystalline CuFe3O for lithium-ion batteries”, Electrochemical and Solid State Letters, 9(8):A390-A394 (2006).
Kim, S., Cianfrone, J.A., Sadik, P., Kim, K.W., Ivil, M., Norton, D.P., “Room temperature deposited oxide p-n junction using p-type zinc-cobalt-oxide”, Journal of Applied Physics, 107(10): 103538 (2010).
Erdogan, I.Y., Gullu, O., “Silicon MIS diodes with Cr2O3 nanofilm: Optical, morphological/structural and electronic transport properties”, Applied Surface Science, 256(13): 4185-4191(2010).
Tavares, C.J., Marques, S.M., Rebouta, L., Lanceros-Mendez, S., Sencadas, V., Costa, C.M., Alves, E., Fernandes, A.J., “PVD-Grown photocatalytic TiO2 thin films on PVDF substrates for sensors and actuators applications”, Thin Solid Films, 517: 1161-1166(2008).
Liu, H.K., Wang, G.X., Guo, Z.P., Wang, J.Z., Konstantinov, K., “Nanomaterials for lithium-ion rechargeable batteries”, Journal of Nanoscience and Nanotechnology, 6: 1-15(2006).
Freiman, G., Barboux, P., Perrière, J., Giannakopoulos, K., “Layer by layer deposition of zirconium oxide onto silicon”, Thin Solid Films, 517: 2670-2674 (2009).
Murarka, S.P., Blech, I.A., Levistein, H.J., “Thin- film interaction in aluminum and platinum”, J.Appl. Phys., 47: 5175-5181 (1976).
Nakamura, K., Nicolet, M.A., Mayer, J., Blattner, R.J., Evans, C.A., “Interaction of Al layers with polycrystalline Si”, J. Appl. Phys., 46: 4678-4684 (1975).
Nakamura, K., Olowolafe, J.O., Lau, S.S., Nicolet, M.A., Mayer, J.W., “Interaction of metal layers with polycrystalline Si”, J. Appl. Phys., 47:1278-1283 (1976).
Locker, L.D., Capio, C.D., “Reaction kinetics of tungsten thin films on silicon (100) surfaces”, J. Appl. Phys., 44: 4366-4369(1973).
Tan, Z.Q., Heald, S.M., “Interfacial reactions between nickel–chromium alloys and aluminum”, J. Appl. Phys., 71: 3766-3772 (1992).
Lee, C.C., Machlin, E.S., Rathore, H.J., “Roles of Ti-intermetallic compound layers on the electromigration resistance of Al-Cu interconnecting stripes”, J.Appl. Phys., 71: 5877-5887 (1992).
Padiyath, R., Seth, J., Babu, S.V., Matienzo, L.J., “Deposition of cupper films on silicon substrates: Film purity and silicide formation”, J. Appl. Phys., 73: 2326-2332(1992).
Liu, C.S., Chen, L.J., “Interfacial reactions of ultrahigh-vacuum-deposited Cu thin films on atomically cleaned (111)Si. I. Phase formation and interface structure”, J. Appl. Phys., 74: 5501-5506 (1993).
Agilan, S., Mangalaraj, D., Narayandass, S.A.K., Mohen Rao, G.,Velumani, S., “Structure and temperature dependence of conduction mechanisms in hot wall deposited CuInSe2 thin films and effect of back contact layer in CuInSe2 based solar cells.”, Vacuum, 84(10): 1220-1225 (2010).
Quang, P.H., Yu, S.C., “Effect of substrate temperature and annealing process on the transport property of Al0.87Mn0.13N thin films.”, Journal of the Korean Physical Society, 52(5):1669-1672 (2008).
Aksu, M.A., Yakıncı, M.E., Güldeste, A., “Co- addition into MgB2: The structural and electronic properties of (MgB2)2−xCox”, Journal of Alloys and Compounds, 424(1-2):33-40 (2006).
Fadel, M., Sedeek, K., Hegab, N.A., “Effect of Sn content on the electrical and optical properties of Ge1-xSnxSe glasses”, Vacuum, 57(3):307-317 (2000).
Guler (Yaroglu), H., “Formation of Intermetallic Phases at the Metal – Silicon Interfaces”, Ph.D. Thesis, Middle East Technical University, Graduate School of Natural Applied Sciences, (2001).
Ozenbas, M., Guler, H., “Formation of Al-Si Intermetallic Phases”, Chemical Engineering Communications, 190(5): 911 – 924(2003).

Year 2011, Volume: 24 Issue: 3, 517 - 525, 25.11.2011

Husniye Guler , Ahmet Ozenbas

Abstract

References

Wang, Y., Gao, G., “Synthesis and enhanced intercalation properties of nanostructured vanadium oxides”, Chemistry of Materials, 18(12):2787-2804 (2006).
Selvan, R.K., Kalaiselvi, N., Augustin, C.O., Doh, C.H., “SnO2 pinning: An aproach to enhance the electrochemical properties of nanocrystalline CuFe3O for lithium-ion batteries”, Electrochemical and Solid State Letters, 9(8):A390-A394 (2006).
Kim, S., Cianfrone, J.A., Sadik, P., Kim, K.W., Ivil, M., Norton, D.P., “Room temperature deposited oxide p-n junction using p-type zinc-cobalt-oxide”, Journal of Applied Physics, 107(10): 103538 (2010).
Erdogan, I.Y., Gullu, O., “Silicon MIS diodes with Cr2O3 nanofilm: Optical, morphological/structural and electronic transport properties”, Applied Surface Science, 256(13): 4185-4191(2010).
Tavares, C.J., Marques, S.M., Rebouta, L., Lanceros-Mendez, S., Sencadas, V., Costa, C.M., Alves, E., Fernandes, A.J., “PVD-Grown photocatalytic TiO2 thin films on PVDF substrates for sensors and actuators applications”, Thin Solid Films, 517: 1161-1166(2008).
Liu, H.K., Wang, G.X., Guo, Z.P., Wang, J.Z., Konstantinov, K., “Nanomaterials for lithium-ion rechargeable batteries”, Journal of Nanoscience and Nanotechnology, 6: 1-15(2006).
Freiman, G., Barboux, P., Perrière, J., Giannakopoulos, K., “Layer by layer deposition of zirconium oxide onto silicon”, Thin Solid Films, 517: 2670-2674 (2009).
Murarka, S.P., Blech, I.A., Levistein, H.J., “Thin- film interaction in aluminum and platinum”, J.Appl. Phys., 47: 5175-5181 (1976).
Nakamura, K., Nicolet, M.A., Mayer, J., Blattner, R.J., Evans, C.A., “Interaction of Al layers with polycrystalline Si”, J. Appl. Phys., 46: 4678-4684 (1975).
Nakamura, K., Olowolafe, J.O., Lau, S.S., Nicolet, M.A., Mayer, J.W., “Interaction of metal layers with polycrystalline Si”, J. Appl. Phys., 47:1278-1283 (1976).
Locker, L.D., Capio, C.D., “Reaction kinetics of tungsten thin films on silicon (100) surfaces”, J. Appl. Phys., 44: 4366-4369(1973).
Tan, Z.Q., Heald, S.M., “Interfacial reactions between nickel–chromium alloys and aluminum”, J. Appl. Phys., 71: 3766-3772 (1992).
Lee, C.C., Machlin, E.S., Rathore, H.J., “Roles of Ti-intermetallic compound layers on the electromigration resistance of Al-Cu interconnecting stripes”, J.Appl. Phys., 71: 5877-5887 (1992).
Padiyath, R., Seth, J., Babu, S.V., Matienzo, L.J., “Deposition of cupper films on silicon substrates: Film purity and silicide formation”, J. Appl. Phys., 73: 2326-2332(1992).
Liu, C.S., Chen, L.J., “Interfacial reactions of ultrahigh-vacuum-deposited Cu thin films on atomically cleaned (111)Si. I. Phase formation and interface structure”, J. Appl. Phys., 74: 5501-5506 (1993).
Agilan, S., Mangalaraj, D., Narayandass, S.A.K., Mohen Rao, G.,Velumani, S., “Structure and temperature dependence of conduction mechanisms in hot wall deposited CuInSe2 thin films and effect of back contact layer in CuInSe2 based solar cells.”, Vacuum, 84(10): 1220-1225 (2010).
Quang, P.H., Yu, S.C., “Effect of substrate temperature and annealing process on the transport property of Al0.87Mn0.13N thin films.”, Journal of the Korean Physical Society, 52(5):1669-1672 (2008).
Aksu, M.A., Yakıncı, M.E., Güldeste, A., “Co- addition into MgB2: The structural and electronic properties of (MgB2)2−xCox”, Journal of Alloys and Compounds, 424(1-2):33-40 (2006).
Fadel, M., Sedeek, K., Hegab, N.A., “Effect of Sn content on the electrical and optical properties of Ge1-xSnxSe glasses”, Vacuum, 57(3):307-317 (2000).
Guler (Yaroglu), H., “Formation of Intermetallic Phases at the Metal – Silicon Interfaces”, Ph.D. Thesis, Middle East Technical University, Graduate School of Natural Applied Sciences, (2001).
Ozenbas, M., Guler, H., “Formation of Al-Si Intermetallic Phases”, Chemical Engineering Communications, 190(5): 911 – 924(2003).

There are 21 citations in total.

Details

Primary Language	English
Journal Section	Chemical Engineering
Authors	Husniye Guler Ahmet Ozenbas This is me
Publication Date	November 25, 2011
Published in Issue	Year 2011 Volume: 24 Issue: 3

Cite

APA	Guler, H., & Ozenbas, A. (2011). Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces. Gazi University Journal of Science, 24(3), 517-525.
AMA	Guler H, Ozenbas A. Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces. Gazi University Journal of Science. November 2011;24(3):517-525.
Chicago	Guler, Husniye, and Ahmet Ozenbas. “Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces”. Gazi University Journal of Science 24, no. 3 (November 2011): 517-25.
EndNote	Guler H, Ozenbas A (November 1, 2011) Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces. Gazi University Journal of Science 24 3 517–525.
IEEE	H. Guler and A. Ozenbas, “Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces”, Gazi University Journal of Science, vol. 24, no. 3, pp. 517–525, 2011.
ISNAD	Guler, Husniye - Ozenbas, Ahmet. “Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces”. Gazi University Journal of Science 24/3 (November 2011), 517-525.
JAMA	Guler H, Ozenbas A. Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces. Gazi University Journal of Science. 2011;24:517–525.
MLA	Guler, Husniye and Ahmet Ozenbas. “Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces”. Gazi University Journal of Science, vol. 24, no. 3, 2011, pp. 517-25.
Vancouver	Guler H, Ozenbas A. Investigating the Formation Mechanisms of Cu0.83Si0.17 Intermetallic Phase Formed at Cu-Si and Cu-(5at%)Nb/Si Interfaces. Gazi University Journal of Science. 2011;24(3):517-25.

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