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    Journals >Matter and Radiation at Extremes >Volume 7 >Issue 6 >Page 068102 > Article
    • Matter and Radiation at Extremes
    • Vol. 7, Issue 6, 068102 (2022)
    Geomimicry—Liberating high-pressure research by encapsulation
    Ho-Kwang Mao1、a) and Wendy L. Mao2
    Author Affiliations
  • 1Center for High Pressure Science and Technology Advanced Research, 10 Dongbeiwang West Road, Haidian, Beijing 100094, China
  • 2Department of Geological Sciences, Stanford University, Stanford, California 94305, USA
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    DOI: 10.1063/5.0126898 Cite this Article
    Ho-Kwang Mao, Wendy L. Mao. Geomimicry—Liberating high-pressure research by encapsulation[J]. Matter and Radiation at Extremes, 2022, 7(6): 068102 Copy Citation Text show less
    References

    [1] S. I.Shylin, I. A.Troyan, A. P.Drozdov, M. I.Eremets, V.Ksenofontov. Conventional superconductivity at 203 kelvin at high pressures in the sulfur hydride system. Nature, 525, 73-76(2015).

    [2] M.Bykov, C.Giacobbe, P.Sedmak, T.Fedotenko, A. V.Ponomareva, L.Dubrovinsky, V.Prakapenka, M. P.Belov, N.Shulumba, N.Dubrovinskaia, I. A.Abrikosov, F.Tasnádi, S.Chariton, S.Khandarkhaeva, D.Laniel, F.Trybel, E.Lawrence Bright, E. A.Smirnova. Materials synthesis at terapascal static pressures. Nature, 605, 274-278(2022).

    [3] J.Lv, Y.Wang, L.Zhang, Y.Ma. Materials discovery at high pressures. Nat. Rev. Mater., 2, 17005(2017).

    [4] W. L.Mao, Y.Lin. Making the most of metastability. Science, 377, 814-815(2022).

    [5] P.Nimis, F.Nestola, M.Alvaro, M. L.Mazzucchelli, R. J.Angel. Geobarometry from host-inclusion systems: The role of elastic relaxation. Am. Mineral., 99, 2146-2149(2014).

    [6] Y.-G.Zhang, J. D.Frantz, R. D.Giauque, M. L.Rivers, J. H.Underwood, A. C.Thompson, H. K.Mao, K. W.Jones, Y.Wu. Analysis of fluid inclusions by X-ray fluorescence using synchrotron radiation. Chem. Geol., 69, 235-244(1988).

    [7] Y.Tian, B.Xu. Diamond gets harder, tougher, and more deformable. Matter Radiat. Extremes, 5, 068103(2020).

    [8] D.Zhang, G. R.Rossman, K.Tait, C.Ma, M.Newville, V. B.Prakapenka, S.Huang, A.Lanzirotti, A. H.Shen, E.Greenberg, O.Tschauner. Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth’s deep mantle. Science, 359, 1136-1139(2018).

    [9] J.Wen, X.Zuo, W.Yang, L.Tan, Q.Zeng, H.-k.Mao, L.Yang, B.Cheng, X.Zhang, W. L.Mao, Z.Zeng, H.Lou. Preservation of high-pressure volatiles in nanostructured diamond capsules. Nature, 608, 513-517(2022).

    [10] J.Shu, N. V.Sobolev, S. V.Goryainov, R. J.Hemley, B. A.Fursenko, H.-k.Mao. Fossilized high pressure from the Earth’s deep interior: The coesite-in-diamond barometer. Proc. Natl. Acad. Sci. U. S. A., 97, 11875-11879(2000).

    [11] R.Wirth, B.Jablon, O.Navon, A.Schreiber, C.Schmidt, S.Emmanuel. Solid molecular nitrogen (δ-N2) inclusions in Juina diamonds: Exsolution at the base of the transition zone. Earth Planet. Sci. Lett., 464, 237(2017).

    [12] K.Lan. Dream fusion in octahedral spherical hohlraum. Matter Radiat. Extremes, 7, 055701(2022).

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    Ho-Kwang Mao, Wendy L. Mao. Geomimicry—Liberating high-pressure research by encapsulation[J]. Matter and Radiation at Extremes, 2022, 7(6): 068102
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