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Koelliker, R., G. Bor, Inorganic Chemistry 1991, 30, 2236-2237. Kondoh, E., Japanease Journal of Applied Physics 2004, 43, 3928-3933. Kondoh, E., Japanease Journal of Applied Physics 2005, 44, 5799-5802. Kondoh, E., K. Shigama, Thin Solid Films 2005, 491, 228-234. Kriese, M. D., W. W. Gerberich, N. R. Moody, Journal of Materials Research 1999, 14, 3007- 3018. Kriese, M. D., W. W. Gerberich, N. R. Moody, Journal of Materials Research 1999, 14, 3019- 3026. Krishnamoorthy, A., K. Chanda, S. P. Murarka, G. Ramanath, J. G. Ryan, Applied Physics Letters 2001, 78, 2467-2469. Krukonis, V., in Annual Meeting AIChE San Fransisco 1984. Lagalante, A. F., B. N. Hansen, T. J. Bruno, R. E. Sievers, Inorg. Chem. 1995, 34, 5781-5785. Lai, Y.-H., Y.-L. Chen, Y. Chi, C.-S. Liu, A. J. Carty, S.-M. Peng, G.-H. Lee, Journal of Materials Chemistry 2003, 13, 1999-2006. Lanford, W. A., P. J. Ding, W. Wang, S. Hymes, S. P. Murarka, Materials Chemistry and Physics 1995, 41, 192-198. Langmuir, I., Proceedings of the National Academy of Sciences of the United States of America 1928, 14, 627-637. Lashdaf, M., T. Hatanpaa, A. O. I. Krause, J. Lahtinen, M. Lindblad, M. Tiitta, Applied Catalysis A: General 2003, 241, 51-63. Lebugle, A., U. Axelsson, R. Nyholm, N. Martensson, Physica Scripta 1981, 23, 825-827. Lee, D.-J., S.-W. Kang, S.-W. Rhee, Thin Solid Films 2002, 413, 237-242. Lee, F.-J., Y. Chi, C.-S. Liu, P.-F. Hsu, T.-Y. Chou, S.-M. Peng, G.-H. Lee, Chemical Vapor Deposition 2001, 7, 99-101. Lee, J.-H., J.-Y. Kim, S.-W. Rhee, D. Yang, D.-H. Kim, C.-H. Yang, Y.-K. Han, C.-J. Hwang, Journal of Vacuum Science and Technology A: Vacuum, Surfaces, and Films 2000, 18, 2400-2403. Lee, J. M., J. C. Shin, C. S. Hwang, H. J. Kim, Journal of Vacuum Science and Technology A: Vacuum, Surfaces, and Films 1998, 16, 2768-2771. 198PDF Image | Supercritical Fluid Deposition Of Thin Metal Films
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