Geoscience Reference
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[32] R.C. De Vries, R. Roy, S. Somiya, S. Yamada, A review of liquid phase systems perti-
nent to diamond synthesis, Trans. Mater. Res. Soc. Japan 19B (1994) 641
647.
[33] S. Yamaoka, M. Akaishi, Growth of diamond under HP/HT water condition, in:
Proceedings of the sixth NIRIM International Symposium in Advanced Materials
(ISAM 99), Tsukuba, Japan, February 28
March 3, 1999, pp. 1
2.
[34] K. Suito, A. Onodera, Synthesis of diamond using phenolic resin, in: Proceedings of
the sixth NIRIM International Symposium on Advanced Materials (ISAM 99),
Tsukuba, Japan, February 28
March 3, 1999, pp. 7
8.
[35] R.L. Dunin-Barkovsky, Author's Certificate 1522789, USSR, 1988.
[36] R.L. Dunin-Barkovsky, A.R. Dunin-Barkovsky, O.V. Drozdova, B.I. Kidyarov, S.S.
Kolyago, E.M. Kozhbakhteyev, et al., Low-temperature growth of diamond seedings in
acid solutions, Chem. Sustainable Dev. 8 (2000) 147
153.
[37] B.N. Litvin, V.I. Popolitov, Hydrothermal Synthesis of Inorganic Compounds, Nauka,
Moscow, 1984, pp. 37, 43.
[38] E.D. Kolb, A.Z. Caporaso, R.A. Laudise, Hydrothermal crystallization of some II
VI
compounds, J. Cryst. Growth 3/4 (1968) 422
425.
[39] L.N. Demianets, E.N. Emelyanova, Crystallization of hydroxylchloride of neodymium
Nd(OH)
2
O under hydrothermal conditions, Kristallografia 14 (1969) 753
754.
[40] P.V. Kletsov, T.G. Lisvnina, L.Y. Kharchenko, Hydrothermal synthesis and investiga-
tions of hydroxylchlorides, Ln
3
Cl
2
(OH)
5
and Ln(OH)
2
Cl, rare earth elements of
yttrium group, J. Spec. Chem. 14 (1973) 87
91.
[41] F.L. Carter, S. Levinson, The hydrothermal preparation single crystal lattice para-
meters, and decomposition data for some lanthanide dihydroxy chlorides and the
related hydroxy chloride, Yb
3
O(OH)
5
Cl
2
, Inorg. Chem. 8 (1969) 2788
2791.
[42] J.A.K. Tarren, T.R.N. Kutty, Hydrothermal phase equilibria in Ln
2
O
3
a
H
2
O
a
CO
2
sys-
tems, J. Cryst. Growth 50 (1980) 527
532.
[43] A.N. Christensen, R.G. Hazeil, Hydrothermal synthesis of stanats: structure of MnSn(OH)
6
,
Acta Chem. Scand. 23 (1969) 1219
1224.
[44] W. Wolski, E. Wolska, J. Kaczmarek, P. Piszora, Ferrimagnetic spinels in hydrothermal
and thermal treatment of Mn
x
Fe
2
2X
(OH)
6
4x
, J. Therm. Anal. 48 (1997) 247
258.
[45] Schafthaul, M¨nchener gelehrte Anzeigen, p. 575 (1845), cited by L. Bourgeois,
Reproduction Artificielle des Minerals, Paris, 1884, p. 80.
[46] G. Friedel, Hydrothermal Synthesis of Corundum, Bull. Soc. Min. 14 (1891) 7
10.
[47] S.J. Thugutt, Hydrothermal Synthesis of Native Elements and Simple Oxides, Z.
Anorg. Chem. 2 (1891) 64
107.
[48] I.P. Kuzmina, N.M. Khaidukov, Crystallization of copper oxide under hydrothermal
conditions, Crystal Growth from High Temperature Aqueous Solutions, Nauka,
Moscow, 1977, pp. 178
189.
[49] H. Hartmann, Optical properties of Cu
2
O, Phys. Status Solidi 2 (1962) 585
597.
[50] D. Ehrentraut, H. Sato, Y. Kagamitani, H. Sato, A. Yoshikawa, T. Fukuda, Solvothermal
growth of ZnO, Prog. Cryst. Growth Charact. Mater. 52 (2006) 280
335.
[51] T.L. Yang, D.H. Zhang, J. Ma, H.L. Ma, Y. Chen, Transparent conducting ZnO:Al
films deposited on organic substrate deposited by R.F. magnetron sputtering, Thin
Solid Films 326 (1998) 60
65.
[52] K. Namratha, K. Byrappa, Novel solution routes of synthesis of metal oxide and hybrid
metal oxide nanocrystals, Prog. Cryst. Growth Charact. Mater. 58 (2012) 14
42.
[53]
I.P. Kuz'mina, A.N. Lobachev, N.S. Triodina, Synthesis of zincite by the hydrothermal
method, in: A.N. Lobachev (Ed.), Crystallization Process Under Hydrothermal
Conditions, Consultants Bureau, New York, NY, 1973, pp. 27
41.
