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Chapter 6
[4] T. Minami, T. Miyata, Y. Ohtani, T. Kuboi, Phys. A. Stärk, H. Stiebig, U. Zastrow, Mater. Res. Soc.
Status Solidi: Rapid Res. Lett., 1 (2007) 31–33 Symp. Proc. 1165 (2009) 209-214
[5] Z. Zhan, J. Zhang, Q. Zheng, Da. Pan, J. Huang, [18] F. Warkusz, Electrocomponent Science and
F. Huang, Z. Lin, Crystal growth and design, 11 Technology, 5 (1978) 197-199
(2011) 21-25 [19] J. Seto, J. Appl. Phys. 46 (1975) 5247-5254
[6] T. Tohsophon, J. Hupkes, S. Calnan, W. Reetz, B. [20] X. Zhang, Corrosion and electrochemistry of
Rech, W. Beyer, N. Sirikulrat, Thin Solid Films 511 Zinc, Springer (1996)
– 512 (2006) 673 – 677 [21] H. Gerischer, Journal of Electrochemical society
[7] W. Lin, R. Ma, J. Xue, B. Kang, Sol. Energy Mater. 113 (1966) 1174-1182
Sol. Cells 91 (2007) 1902–1905 [22] W. Preis, H. Gamsjäger, Monatshefte für Chemie
[8] I. Hüpkes, J. Owen, M. Wimmer, F. Ruske, D. 132 (2001) 1327-1346
Greiner, R. Klenk, U. Zastrow, J. Hotovy, Damp [23] A. Goux, T. Pauporté, J. Chivot, D. Lincot, Elec-
heat stable doped zinc oxide films, Thin Solid trochimica Acta 50 (2005) 2239-2248
Films 555 (2014) 48-52 [24] Puigdomenech, I.,MEDUSA: Make Equilibrium
[9] R. Feist, S. Rozeveld, M. Mushrush, R. Haley, B. Diagrams Using Sophisticated Algorithms.
Lemon, J. Gerbi, B. Nichols, R. Nilsson, T. Rich- HYDRA: Hydrochemical Equilibrium-Constant
ardson, S. Sprague, R. Tesch, S. Torka, C. Wood, Database. http://www.kemi.kth.se/medusa
rd
S. Wu, S. Yeung, M. T. Bernius, Proc. 33 IEEE [25] I. Odnevall, C. Leygraf, Reaction sequence in
PVSC (2008) 1-5 atmospheric corrosion of zinc ASTM STP 1239,
[10] F. Pern, B. To, C. De Hart, X. Li, S. Glick, R. Noufi, American Society for Testing and Materials,
Proc. SPIE 7048 (2008) Philadelphia, 1994
[11] K. Sundaram, A. Khan, Thin Solid Films 295
(1997) 87-91
[12] K. Ellmer, A. Klein, B. Rech, Transparent Conduc-
tive Zinc Oxide, basics and applications in Thin
Film Solar Cells, Springer-Verlag: Berlin, Germa-
ny (2008)
[13] D. Greiner, N. Papathanasiou, A. Pflug, F. Ruske,
R. Klenk, Thin Solid Films 517 (2009) 2291–2294
[14] H. Liu, V. Avrutin, N. Izyumskaya, U. Ozgur and H.
Morkoc, Superlattices and Microstructures 48
(2010), 458-484
[15] J. Kang, M. Lee, D. Kim, Y. Lim, W. Seo, H. Choi,
Current Applied Physics 11 (2011) S333-S336
[16] J. Steinhauser, S.Meyer, M. Schwab, S. Faÿ, C. Bal -
lif, U. Kroll, D. Borrello, Thin Solid Films 520 (2011)
558-562
[17] W. Beyer, U. Breuer, F. Hamelmann, J. Hüpkes,
210
[4] T. Minami, T. Miyata, Y. Ohtani, T. Kuboi, Phys. A. Stärk, H. Stiebig, U. Zastrow, Mater. Res. Soc.
Status Solidi: Rapid Res. Lett., 1 (2007) 31–33 Symp. Proc. 1165 (2009) 209-214
[5] Z. Zhan, J. Zhang, Q. Zheng, Da. Pan, J. Huang, [18] F. Warkusz, Electrocomponent Science and
F. Huang, Z. Lin, Crystal growth and design, 11 Technology, 5 (1978) 197-199
(2011) 21-25 [19] J. Seto, J. Appl. Phys. 46 (1975) 5247-5254
[6] T. Tohsophon, J. Hupkes, S. Calnan, W. Reetz, B. [20] X. Zhang, Corrosion and electrochemistry of
Rech, W. Beyer, N. Sirikulrat, Thin Solid Films 511 Zinc, Springer (1996)
– 512 (2006) 673 – 677 [21] H. Gerischer, Journal of Electrochemical society
[7] W. Lin, R. Ma, J. Xue, B. Kang, Sol. Energy Mater. 113 (1966) 1174-1182
Sol. Cells 91 (2007) 1902–1905 [22] W. Preis, H. Gamsjäger, Monatshefte für Chemie
[8] I. Hüpkes, J. Owen, M. Wimmer, F. Ruske, D. 132 (2001) 1327-1346
Greiner, R. Klenk, U. Zastrow, J. Hotovy, Damp [23] A. Goux, T. Pauporté, J. Chivot, D. Lincot, Elec-
heat stable doped zinc oxide films, Thin Solid trochimica Acta 50 (2005) 2239-2248
Films 555 (2014) 48-52 [24] Puigdomenech, I.,MEDUSA: Make Equilibrium
[9] R. Feist, S. Rozeveld, M. Mushrush, R. Haley, B. Diagrams Using Sophisticated Algorithms.
Lemon, J. Gerbi, B. Nichols, R. Nilsson, T. Rich- HYDRA: Hydrochemical Equilibrium-Constant
ardson, S. Sprague, R. Tesch, S. Torka, C. Wood, Database. http://www.kemi.kth.se/medusa
rd
S. Wu, S. Yeung, M. T. Bernius, Proc. 33 IEEE [25] I. Odnevall, C. Leygraf, Reaction sequence in
PVSC (2008) 1-5 atmospheric corrosion of zinc ASTM STP 1239,
[10] F. Pern, B. To, C. De Hart, X. Li, S. Glick, R. Noufi, American Society for Testing and Materials,
Proc. SPIE 7048 (2008) Philadelphia, 1994
[11] K. Sundaram, A. Khan, Thin Solid Films 295
(1997) 87-91
[12] K. Ellmer, A. Klein, B. Rech, Transparent Conduc-
tive Zinc Oxide, basics and applications in Thin
Film Solar Cells, Springer-Verlag: Berlin, Germa-
ny (2008)
[13] D. Greiner, N. Papathanasiou, A. Pflug, F. Ruske,
R. Klenk, Thin Solid Films 517 (2009) 2291–2294
[14] H. Liu, V. Avrutin, N. Izyumskaya, U. Ozgur and H.
Morkoc, Superlattices and Microstructures 48
(2010), 458-484
[15] J. Kang, M. Lee, D. Kim, Y. Lim, W. Seo, H. Choi,
Current Applied Physics 11 (2011) S333-S336
[16] J. Steinhauser, S.Meyer, M. Schwab, S. Faÿ, C. Bal -
lif, U. Kroll, D. Borrello, Thin Solid Films 520 (2011)
558-562
[17] W. Beyer, U. Breuer, F. Hamelmann, J. Hüpkes,
210
