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Combinatorial Synthesis and Evaluation of Functional Inorganic Materials Using Thin-Film Techniques

Abstract
Abstract

Novel phases of functional inorganic chemical systems can be efficiently explored using high-throughput thin-film fabrication techniques coupled with rapid characterization schemes. High-throughput investigation of thin-film materials has already led to the discovery of new dielectric and magnetic materials. In this article, we review various high-throughput thin-film synthesis/evaluation techniques and discuss examples of exciting discoveries and new applications of combinatorial techniques.

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1.X.-D. Xiang , X.-D. Sun , G. Briceño , Y. Lou , K.-A. Wang , H. Chang , W.G. Wallace-Freedman , S.-W. Chen , and P.G. Schultz , Science 268 (1995) p. 1738.

2.G. Briceño , H. Chang , X.-D. Sun , P.G. Schultz , and X.-D. Xiang , Science 270 (1995) p. 273.

3.H. Chang , C. Gao , I. Takeuchi , Y. Yoo , J. Wang , P.G. Schultz , X.-D. Xiang , R.P. Sharma , M. Downes , and T. Venkatesan , Appl. Phys. Lett. 72 (1998) p. 2185.

4.H. Chang , I. Takeuchi , and X.-D. Xiang , Appl. Phys. Lett. 74 (1999) p. 1165.

5.I. Takeuchi , H. Chang , C. Gao , P.G. Schultz , X.-D. Xiang , R.P. Sharma , M.J. Downes , and T. Venkatesan , Appl. Phys. Lett. 73 (1998) p. 894.

6.I. Takeuchi , K. Chang , R.P. Sharma , L.A. Bendersky , H. Chang , X.-D. Xiang , E.A. Stach , and C.-Y. Song , J. Appl. Phys. 90 (2001) p. 2474.

7.H. Koinuma , Solid State Ionics 108 (1998) p. 1.

8.H. Koinuma , Appl. Surface Sci. (Proc. 1st Japan–U.S. Workshop on Combinatorial Materials Sci. & Tech., 2002) in press.

9.H. Koinuma , T. Koinda , T. Ohnishi , D. Komiyama , M. Lippmaa , and M. Kawasaki , Appl. Phys. A 69 (1999) p. S29.

10.M. Kawasaki , K. Takahashi , T. Maeda , R. Tsuchiya , M. Shinohara , O. Ishiyama , T. Yonezawa , M. Yoshimoto , and H. Koinuma , Science 266 (1994) p. 1540.

11.T. Ohnishi , D. Komiyama , T. Koida , S. Ohashi , C. Stauter , H. Koinuma , A. Ohtomo , M. Lippmaa , N. Nakagawa , M. Kawasaki , T. Kikuchi , and K. Omote , Appl. Phys. Lett. 79 (2001) p. 536.

12.T. Wei , X.-D. Xiang , W.G. Wallace-Freedman , and P.G. Schultz , Appl. Phys. Lett. 68 (1996) p. 3506.

13.C. Gao and X.-D. Xiang , Rev. Sci. Instrum. 69 (1998) p. 3846.

14.I. Takeuchi , T. Wei , F. Duewer , Y.K. Yoo , X.-D. Xiang , V. Talyansky , S.P. Pai , G.J. Chen , and T. Venkatesan , Appl. Phys. Lett. 71 (1997) p. 2026.

15.K.S. Chang , M. Aronova , O. Famodu , I. Takeuchi , S.E. Lofland , J. Hattrick-Simpers , and H. Chang , Appl. Phys. Lett. 79 (2001) p. 4411.

16.E.D. Isaacs , M. Kao , G. Aeppli , X.-D. Xiang , X.-D. Sun , P. Schultz , M.A. Marcus , G.S. Cargill , and R. Haushalter , Appl. Phys. Lett. 73 (1998) p. 1820.

17.Y.K. Yoo , T. Ohnishi , G. Wang , F.W. Duewer , X.-D. Xiang , Y.-S. Chu , D.C. Mancini , Y.-Q. Li , and R.C. O'Handley , Intermetallics 9 (2001) p. 541.

18.K. Omote , T. Kikuchi , J. Harada , M. Kawasaki , A. Ohtomo , M. Ohtani , T. Ohnishi , D. Komiyama , and H. Koinuma , in Proc. SPIE, Vol. 3941 (SPIE—The International Society for Optical Engineering, Bellingham, WA, 2000) p. 84.

20.R.B. van Dover , L.F. Schneemeyer , and R.M. Fleming , Nature 392 (1998) p. 162.

21.R.B. van Dover and L.F. Schneemeyer , IEEE Electron Device Lett. 19 (1998) p. 329.

22.R.B. van Dover , T. Siegrist , L.F. Schneemeyer , M.L. Green , and L. Manchanda , Nature (2002) submitted for publication.

23.G.D. Wilk , R.M. Wallace , and J.M. Anthony , J. Appl. Phys. 87 (2000) p. 484.

25.Y. Matsumoto , M. Murakami , T. Shono , T. Hasegawa , T. Fukumura , M. Kawasaki , P. Ahmet , T. Chikyow , S. Koshihara , and H. Koinuma , Science 291 (2001) p. 854.

26.Y. Matsumoto , R. Takahashi , M. Murakami , T. Koida , X.-J. Fan , T. Hasagawa , T. Fukumura , M. Kawasaki , S. Koshihara , and H. Koinuma , Jpn. J. Appl. Phys., Part 2: Lett.40 (2001) p. L1204.

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