Hostname: page-component-54dcc4c588-gwv8j Total loading time: 0 Render date: 2025-09-26T17:11:52.167Z Has data issue: false hasContentIssue false
  • English
  • Français

High Pressure Synthesis of Solid State Materials

Published online by Cambridge University Press:  15 February 2011

Paul F. Mcmillan
Paul F. Mcmillan*
Affiliation:
Materials Research Science and Engineering Center, Dept. of Chemistry and Biochemistry, Arizona State University, Tempe, AZ 85287–1604 pmcmillan@asu.edu Additional collaborators are listed in the text
Get access

Abstract

Within the ASU MRSEC, we are using a combination of high pressure synthesis techniques (multi-anvil, piston cylinder), combined with in situ studies in diamond anvil cells, and ab initio calculations, to prepare a range of new materials at high pressure, and to study their physical properties under extreme conditions of pressure and temperature. Work in progress includes experiments on nitrides, particularly glasses and crystalline materials based in the P3N5-HPN2-PON system, silicate and germanate perovskites and related vanadates and niobates, and high hardness materials in the B-C-N-0 system. Some of our recent results are presented.

Information

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 453: Symposium R – Solid State Chemistry of Inorganic Materials , 1996 , 141
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Article purchase

Temporarily unavailable

References

REFERENCES

[1] Grande, T, Holloway, JR, McMillan, PF, Angell, C A. Nature 369, 4345 (1994).Google Scholar
[2] Grande, T, Jacob, S, Holloway, JR, McMillan, PF, Angell, CA. J. Non-Cryst. Solids 184, 151154(1995).Google Scholar
[3] McMillan, PF, Angell, CA, Grande, T, Holloway, JR. U.S. Patent No. 5,455,211 (1995).Google Scholar
[4] McMillan, PF, Angell, CA, Grande, T, Holloway, JR. U.S. Patent App. Ser. No. 08/447,534.Google Scholar
[5] Coffman, P, Ph.D. dissertation, Chemistry and Biochemistry, ASU (1996).Google Scholar
[6] Coffman, P, Pacalo, RE, McMillan, PF, Petuskey, WT, in prep.Google Scholar
[7] Pacalo, RE, McMillan, PF, Petuskey, WT, Coffman, P, Hilt, L, in prep.Google Scholar
[8] Kingma, KJ, Pacalo, REG, McMillan, PF (1996) In “US-Japan Conference on High Pressure-Temperature Research”, Syono Y, Manghnani MH, eds, in press.Google Scholar
[9] Kingma, KJ, Pacalo, REG, McMillan, PF (1996) J.Solid State Chem., submitted.Google Scholar
[10] Pacalo, RE, McMillan, PF, Petuskey, WT, Coffman, P, in prep.Google Scholar
[11' Pacalo, RE, McMillan, PF, Petuskey, WT, Parise, J, Coffman, P, in prep.Google Scholar
[12] Kingma, KJ, Hemley, RJ, Mao, H-K, Veblen, DR. Phys Rev Lett 70, 39273930 (1993).Google Scholar
[13] Kingma, KJ, Meade, C, Hemley, RJ, Mao, H-K, Veblen, DR. Science 259, 666669 (1993).Google Scholar
[14] VerHelst-Voorhees, M, Yarger, JL, Diefenbacher, J, poe, BT, McMillan, PF, Smith, DJ, Wolf, GH. Phys Rev Lett, submittedGoogle Scholar
[15] Hemley, RJ, Cohen, RE. Ann Rev Earth Planet Sci 20, 553600 (1992).Google Scholar
[16] Mao, HK, Chen, LC, Hemley, RJ, Jephcoat, AP, Wu, Y, Bassett, WA, J Geophys. Res 94, 1788917894(1989).Google Scholar
[17] Kanzaki, M, Stebbins, JF, Xue, X, Geophys Res Lett 18, 463466 (1991).Google Scholar
[18] Hemmati, M, Chizmeshya, A, Wolf, GH, Poole, PH, Shao, J, Angell, CA. Phys Rev B 51, 1484114848 (1995).Google Scholar
[19] Chizmeshya, A, Wolf, GH, McMillan, PF Geophys Res Lett 23, 27252728 (1996).Google Scholar
[20] Durben, DJ, Wolf, GH Am Mineral 77, 890893 (1992).Google Scholar
[21] Durben, DJ, Wolf, GH, McMillan, PF PhysChem Minerals 18 215223 (1991).Google Scholar
[22] Samara, GA J Phys Chem. 94, 11271134 (1990)Google Scholar
[23] Samara, GA Ferroelectrics 117, 347372 (1991)Google Scholar
[24] Lu, R, Hofmeister, AM Phys Chem Minerals 21, 7884 (1994)Google Scholar
[25] Shimizu, Y, Syono, Y, Akimoto, S High Temp Press 2, 113120 (1970)Google Scholar
[26] Grzechnik, A, Petuskey, WT, McMillan, PF. MRS Symp Thermodynamics and Kinetics of Phase Tansformations (1996).Google Scholar
[27] Grzechnik, A, Chizmeshya, A, Wolf, GH, McMillan, PF, in prep.Google Scholar
[28] Grzechnik, A, Hubert, H, McMillan, P, Petuskey, W Proc. Symp. “Integrated Ferroelectrics”, in press (1996).Google Scholar
[29] Leinenweber, k, Grzechnik, A, Voorhees, M, Navrotsky, A, Yao, N, McMillan, P Phys Chem Minerals, in press (1996).Google Scholar
[30] Grzechnik, A, McMillan, PF. J.Phys. Chem. Solids 56, 159164 (1995).Google Scholar
[31] Grzechnik, A, Ph.D. dissertation, Chemistry and Biochemistry, ASU (1996)‥Google Scholar
[32] Grzechnik, A, McMillan, PF. J. Solid State Chem, submitted (1996).Google Scholar
[33] Grzechnik, A, McMillan, PF. Solid State Commun 99, 869871 (1996).Google Scholar
[34] Grumbach, MP, Sankey, OF, McMillan, PF. Phys. Rev. B 52, 1580715811 (1996).Google Scholar
[35] Hubert, H, Garvie, LAJ, Leinenweber, K, Buseck, P, Petuskey, WT, McMillan, PF MRS Symp Covalent Ceramics III (1996).Google Scholar
[36] Hubert, H, Garvie, LAJ, Buseck, P, Petuskey, WT, McMillan, PF J.Solid State Chem, submitted (1996).Google Scholar
[37] Hubert, H, Garvie, LAJ, Devouard, B, Buseck, P, Petuskey, WT, McMillan, PF J.Solid State Chem, submitted (1996).Google Scholar
[38] Hubert, H, Garvie, LAJ, Devouard, B, Buseck, P, Petuskey, WT, McMillan, PF Science, submitted (1996).Google Scholar
[38] Hubert, H, Garvie, LAJ, Devouard, B, Buseck, P, Petuskey, WT, McMillan, PF MRS Symp (posterai this meeting) (1996).Google Scholar