Hydrothermal Leaching of LiCoO2 with Sulfuric Acid, Nitric Acid, and Citric Acid
Author:
Affiliation:
1. Graduate School of Environment, Tohoku University
2. Department of Chemical Engineering, Graduate School of Engineering, Tohoku University
Publisher
Society of Chemical Engineers, Japan
Subject
General Chemical Engineering,General Chemistry
Link
https://www.jstage.jst.go.jp/article/kakoronbunshu/43/4/43_16wh072/_pdf
Reference18 articles.
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2. Dalla-Betta, P. and M. Schulte; “Calculation of the Aqueous Thermodynamic Properties of Citric Acid Cycle Intermediates and Precursors and the Estimation of High Temperature and Pressure Equation of State Parameters,” Int. J. Mol. Sci., 10, 2809–2837 (2009)
3. Halstead, S. J. and P. An; “Simulation of Acid Dissociation Constants of Polyprotic Acids in Near-Critical and Supercritical Water,” J. Phys. Chem., 117, 150093–150100 (2013)
4. Helgeson, H. C., D. H. Kirkham and G. C. Flowers; “Theoretical Prediction of the Thermodynamic Behavior of Aqueous Electrolytes by High Pressures and Temperatures; IV, Calculation of Activity Coefficients, Osmotic Coefficients, and Apparent Molal and Standard and Relative Partial Molal Properties to 600 Degrees C and 5 kb,” Am. J. Sci., 281, 1249–1516 (1981)
5. Jha, M. K., A. Kumari, A. K. Jha, V. Kumar, J. Hait and B. D. Pandey; “Recovery of Lithium and Cobalt from Waste Lithium Ion Batteries of Mobile Phone,” Waste Manag., 33, 1890–1897 (2013)
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