Skip to main content
×
Home
    • Aa
    • Aa

Combinatorial Investigation of Spintronic Materials

Abstract
Abstract

High-throughput synthesis and characterization techniques have been effective in discovering new materials and performing rapid mapping of phase diagrams. The application of the combinatorial strategy to explore doped transition-metal oxides has led to the discovery of a transparent room-temperature ferromagnetic oxide in Co-doped anatase TiO2. The discovery has triggered a wave of studies into other metal oxide systems in pursuit of diluted magnetic semiconductors. In this article, we describe recent combinatorial studies of magnetic transition-metal oxides, germanium-based magnetic semiconductors, and Heusler alloys.

Copyright
Linked references
Hide All

This list contains references from the content that can be linked to their source. For a full set of references and notes please see the PDF or HTML where available.

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

2.J. Wang , Y. Yoo , C. Gao , I. Takeuchi , X. Sun , X.-D. Xiang , and P.G. Schultz , Science 279 (1998) p. 1712.

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

5.Y. Matsumoto , M. Murakami , Z.W. Jin , A. Ohtomo , S. Ohashi , M. Lippmaa , M. Kawasaki , and H. Koinuma , Jpn. J. Appl. Phys., Part 2: Lett.38 (1999) p. L603.

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

7.I. Takeuchi , O. Famodu , J.C. Read , M. Aronova , K.-S. Chang , C. Craciunescu , S.E. Lofland , M. Wuttig , F.C. Wellstood , L. Knouse , and A. Orozco , Nature Mater. 2 (2003) p. 180.

8.R.B. van Dover , M. Hong , E.M. Gyorgy , J.F. Dillon Jr., and S.D. Albiston , J. Appl. Phys. 57 (1985) p. 3897.

9.Y.K. Yoo , F.W. Duewer , H. Yang , Y. Dong , and X.-D. Xiang , Nature 406 (2000) p. 704.

10.Y.K. Yoo , F.W. Duewer , T. Fukumura , H. Yang , Y. Dong , H. Chang , T. Hasegawa , M. Kawasaki , H. Koinuma , and X.-D. Xiang , Phys. Rev. B 63 224421 (2001).

11.T. Fukumura , M. Ohtani , M. Kawasaki , Y. Okimoto , T. Kageyama , T. Koida , T. Hasegawa , Y. Tokura , and H. Koinuma , Appl. Phys. Lett. 77 (2000) p. 3426.

12.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.

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

15.H. Ohno , Science 281 (1998) p. 951.

16.Y. Matsumoto , M. Murakami , Z.W. Jin , A. Nakayama , T. Yamaguchi , T. Ohmori , E. Suzuki , S. Nomura , M. Kawasaki , and H. Koinuma , in Proc. SPIE, Vol. 3941 (SPIE—The International Society for Optical Engineering, Bellingham, WA, 2000) p. 19.

17.Z.W. Jin , M. Murakami , T. Fukumura , Y. Matsumoto , A. Ohtomo , M. Kawasaki , and H. Koinuma , J. Cryst. Growth 214/215 (2000) p. 55.

18.T. Hasegawa , T. Kageyama , T. Fukumura , N. Okazaki , M. Kawasaki , H. Koinuma , Y.K. Yoo , F. Duewer , and X.-D. Xiang , Appl. Surf. Sci. 189 (2002) p. 210.

19.Z.W. Jin , T. Fukumura , M. Kawasaki , K. Ando , H. Saito , T. Sekiguchi , Y.Z. Yoo , M. Murakami , Y. Matsumoto , T. Hasegawa , and H. Koinuma , Appl. Phys. Lett. 78 (2001) p. 3824.

20.K. Ando , H. Saito , Z.W. Jin , T. Fukumura , M. Kawasaki , Y. Matsumoto , and H. Koinuma , J. Appl. Phys. 89 (2001) p. 7284.

23. For example, see H. Fritzsche , Phys. Rev. 99 (1955) p. 406.

24.F. Tsui , L. Ma , and L. He , Appl. Phys. Lett. 83 (5) (2003) p. 954.

25.R.A. de Groot , F.M. Mueller , P.G. van Engen , and K.H.J. Buschow , Phys. Rev. Lett. 50 (1983) p. 2024.

26.T. Ambrose , J.J. Krebs , and G.A. Prinz , Appl. Phys. Lett. 76 (2000) p. 3280.

27.J.W. Dong , L.C. Chen , J.Q. Xie , T.A.R. Müller , D.M. Carr , C.J. Palmstrøm , S. McKernan , Q. Pan , and R.D. James , J. Appl. Phys. 88 (2000) p. 7357.

29.E.F. Fleet , S. Chatraphorn , F.C. Wellstood , L.A. Knauss , and S.M. Green , Rev. Sci. Instrum. 72 (2001) p. 3281.

30.S.J. Murray , M.A. Marioni , A.M. Kukla , J. Robinson , R.C. O'Handley , and S.M. Allen , J. Appl. Phys. 87 (2000) p. 5774.

31.V.A. Chernenko , E. Cesari , V.V. Kokorin , and I.N. Vitenko , Scripta Metall. Mater. 33 (1995) p. 1239.

32.S.I. Patil , T. Deng , S.E. Lofland , S.M. Bhagat , I. Takeuchi , O. Famodu , J.C. Read , K.-S. Chang , C. Craciunescu , and M. Wuttig , Appl. Phys. Lett. 81 (2002) p. 1279.

Recommend this journal

Email your librarian or administrator to recommend adding this journal to your organisation's collection.

MRS Bulletin
  • ISSN: 0883-7694
  • EISSN: 1938-1425
  • URL: /core/journals/mrs-bulletin
Please enter your name
Please enter a valid email address
Who would you like to send this to? *
×

Keywords: