Thermodynamic reassessment of the Cu-O phase diagram
Author:
Publisher
Springer Science and Business Media LLC
Subject
Materials Chemistry,Metals and Alloys,Condensed Matter Physics
Link
http://link.springer.com/content/pdf/10.1007/s11669-005-0005-8.pdf
Reference32 articles.
1. R.J. Cava, B. Batlogg, R.B. Vandover, J.J. Krajewski, J.V. Waszcak, R.M. Fleming, W.F. Peck, L.W. Rupp, P. Marsh, A.C.W.P. James, and L.F. Schneemeyer, Superconductivity at 60-K in LA2-XSRXCACU2O6—The Simplest Double-Layer Cuprate, Nature, 1990, Vol 345 (No. 6276), p 602–604
2. E. Dagotto and T.M. Rice, Surprises on the Way from One- to Two-Dimensional Quantum Magnets: The Ladder Materials, Science, 1996, Vol 271 (No. 5249), p 618–623
3. B. Hallstedt, D. Risold, and L.J. Gauckler, Thermodynamic Assessment of the Copper-Oxigen System, J. Phase Equilibria, Vol 15, 1994, p 483–499
4. H.S. Roberts and F.H. Smyth, The System Copper: Cupric Oxide: Oxygen, J. Am. Chem. Soc., Vol 43, 1921, p 1061–1079
5. A.V. Kosenko and G.A. Emel’chenko, Equilibrium Phase Relationships in the System Cu-O under High Oxygen Pressure, J. Phase Equilibria, Vol 22, 2001, p 12–19
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