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Title: Formation and energetics of amorphous rare earth (RE) carbonates in the RE2O3–CO2–H2O system

Journal Article · · Thermochimica Acta
 [1];  [2]
  1. Lobachevsky State University of Gorky (Russian Federation). Dept. of Chemistry
  2. Arizona State Univ., Tempe, AZ (United States). Center for Materials of the Universe. School of Molecular Sciences
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Amorphous materials are of interest in the genesis of crystalline solids. They are often the first to precipitate from supersaturated solutions and are in the nanometer size range, transforming into a nanocrystalline metastable phase, and then to thermodynamically stable phases. One must seek knowledge of the composition, structure, thermodynamics, kinetics, and reaction pathways that relate the amorphous and crystalline phases. The subject of this study is the amorphous phases in the system RE2O3-CO2–H2O (RE- La, Nd, Dy,Yb). They were synthesized via direct precipitation and urea hydrolysis, and characterized by powder XRD, DTA with mass spectrometric analysis of the evolved gases. Phases have the non-stoichiometric composition RE2O3·xCO2·yH2O (1 < x < 3, 3 < y <7), which is different from that of crystalline simple carbonates and hydroxycarbonates. Thus we consider them to be amorphous precursors, rather than amorphous carbonates. High temperature oxide melt solution calorimetry in molten sodium molybdate solvent was used to derive their enthalpies of formation from oxides and elements. Increase of energetic stability per mole of RE2O3 compounds occurs in the order: RE2O3 → 2RE(OH)3→ 2REO(OH) → RE2O2CO3 → Amorphous precursor → 2(REOHCO3) → RE2(CO3)3·yH2O. We calculated the enthalpies of possible transformations of amorphous precursors to crystalline phases and conclude that thermodynamics determines the dependence of the crystallizing products on the temperature and partial pressure of CO2 and H2O. Amorphous precursors are clearly intermediate in the synthesis, and ternary phases containing both H2O and CO2 compete with each other in terms of thermodynamic stability. The energy landscape obtained here will allow one to directly synthesize specific products and control their functionality.

Research Organization:
Univ. of California, Davis, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC)
Grant/Contract Number:
FG02-03ER46053
OSTI ID:
1849470
Alternate ID(s):
OSTI ID: 1776243
Journal Information:
Thermochimica Acta, Vol. 692, Issue C; ISSN 0040-6031
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (18)

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Enthalpy of formation of Ln2O2CO3 II (Ln=La, Nd, Eu) and thermodynamics of decomposition equilibria journal December 2012
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Related Subjects

37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Thermodynamics
Chemistry
Amorphous materials
Carbonates
Rare earth crystallization
Enthalpy
Calorimetry