Morphosynthesis of Caco3 at Different Reaction Temperatures and the Effects of Pdda, Ctab, and Edta on the Particle Morphology and Polymorph Stability
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BRONZE
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Abstract
Facile precipitation of CaCO3 was performed using aqueous solutions of CaCl2 with Na2CO3 over a wide range of mixing and aging temperatures. The precipitation process was then repeated in the presence of PDDA, CTAB, and EDTA at the mixing temperatures of 30 °C, 50 °C, 70 °C, and 90 °C. The presence of these additives was seen to greatly suppress the formation of aragonite. Among these additives, EDTA was the one that showed the most prominent effects on particle morphology of CaCO3. The sequence of pH adjustment appeared to be a critical factor for the additive functionality.
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Keywords
Aragonite, Calcite, Morphology, Mixing temperatures, Prominent effects, Alkaline earth metal compounds, Morphology, Prominent effects, Aragonite, Calcite, Alkaline earth metal compounds, Mixing temperatures
Fields of Science
02 engineering and technology, 0210 nano-technology, 01 natural sciences, 0104 chemical sciences
Citation
Altay, E., Shahwan, T., and Tanoğlu, M. (2007). Morphosynthesis of CaCO3 at different reaction temperatures and the effects of PDDA, CTAB, and EDTA on the particle morphology and polymorph stability. Powder Technology, 178(3), 194-202. doi:10.1016/j.powtec.2007.05.004
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66
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178
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3
Start Page
194
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202
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