The solid has two known phases: a low-temperature (β) phase with P21/n symmetry[1] and a high-temperature (α′) phase with P21nb symmetry.[2] The structure of Ba2TiO4 is unusual among the titanates because its titanium atoms sit in a four-oxygen tetrahedron rather than a six-oxygen octahedron.[1][3]
It is hygroscopic and decomposes with swelling in moist air.[9]
Barium orthotitanate can remove up to 99.9% of CO 2 from a high-temperature gas stream[10] by the reaction:
Ba 2TiO 4 + CO 2 → BaTiO 3 + BaCO 3
References
^ abWu, Kang Kun; Brown, I. D. (10 April 1973). "The Crystal Structure of β-Barium Orthotitanate, β-Ba2TiO4, and the Bond Strength-Bond Length Curve of Ti-O". Acta Crystallographica. B29 (9): 2009–2012. doi:10.1107/S0567740873005959.
^Günter, John R.; Jameson, Geoffrey B. (14 September 1983). "Orthorhombic Barium Orthotitanate, α′-Ba2TiO4". Acta Crystallographica. C40: 207–210. doi:10.1107/S0108270184003619.
^Bobovich, Ya. S. "The Raman Scattering of Barium Orthotitanate". Optics and Spectroscopy. 13: 254–255.
^ abTodd, S. S.; Lorenson, R.E. (August 1952). "Heat Capacities at Low Temperatures and Entropies at 298.16K. of Orthotitanates of Barium and Strontium". Journal of the American Chemical Society. 74 (15): 2043–2045. doi:10.1021/ja01135a014.
^Guo, Dongyun; Goto, Takashi; Wang, Chuanbin; Shen, Qiang & Zhang, Lianmeng (2012). "High-speed growth of (103)-oriented Ba2TiO4 film by laser chemical vapor deposition". Materials Letters. 70: 135–137. doi:10.1016/j.matlet.2011.11.094.
^Ahmad, Tokeer; Ganguli, Ashok K. (1 October 2004). "Synthesis of nanometer-sized particles of barium orthotitanate prepared through a modified reverse micellar route: Structural characterization, phase stability and dielectric properties". Journal of Materials Research. 19 (10): 2905–2912. Bibcode:2004JMatR..19.2905A. doi:10.1557/JMR.2004.0406.
^Jaffe, Bernard; Cook Jr., William R.; Jaffe, Hans (1971). "5. Barium Titanate". Piezoelectric Ceramics. London and New York: Academic Press. p. 62. ISBN0123795508.
^Saito, Yoshinori; Sato, Hideto; Sakabe, Yukio (20 May 2008). "CO2 Recovery at High Temperatures Using Ba2TiO4". Journal of Chemical Engineering of Japan. 41 (5): 441–446. doi:10.1252/jcej.07WE236.