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Crystal Growth and Design
Volumn 8, Issue 9, 2008, Pages 3302-3308
Phase transitions and CO2 adsorption properties of polymeric magnesium formate
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EID: 61549118803     PISSN: 15287483     EISSN: 15287505     Source Type: Journal    
DOI: 10.1021/cg800181q     Document Type: Article
Times cited : (63)
References (73)
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    • A comparison of the calculated XRPD spectrum (simulated from the single-crystal data) with the experimental spectrum recorded on the solid product showed that, in the case of the zinc nitrate synthesis, some impurities are present, whose relative amount is presumably very small (less than 10%) with respect to the main phase. This can be inferred from the satisfactory match of the measured elemental analyses with the theoretical ones. Products from zinc perchlorate are generally less pure than those coming from nitrate, probably up to 40-50%, from the X-ray intensities (Figure 1, spectrum b).
    • A comparison of the calculated XRPD spectrum (simulated from the single-crystal data) with the experimental spectrum recorded on the solid product showed that, in the case of the zinc nitrate synthesis, some impurities are present, whose relative amount is presumably very small (less than 10%) with respect to the main phase. This can be inferred from the satisfactory match of the measured elemental analyses with the theoretical ones. Products from zinc perchlorate are generally less pure than those coming from nitrate, probably up to 40-50%, from the X-ray intensities (Figure 1, spectrum b).
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    • GSAS; Larson, C, von Dreele, R. B. Generalized Crystal Structure Analysis System; Los Alamos National Laboratory: New Mexico, 2001. Rietveld refinement of 2a was performed using the GSAS program. Firstly, zero shift, cell parameters, background, and profile shape were refined; a corrected pseudo-Voigt profile function (six terms) with two terms for the correction of asymmetry at the low-angle region was used. Secondly, atomic coordinates and isotropic thermal factors were refined restraining the distances and the angles to the following values: Mg-O, 2.05(5) Å, C-O, 1.23(2) Å, O-C-O, 120(1)°. The statistical weight of these restraints was decreased as the refinement proceeded, but it was not possible to set it to zero, due to some unrealistic light atom bond distances. At the end of the refinement, the shifts in all parameters were less than their standard deviations. Crystal data and refinement details for 2a: Monoclinic P2
    • 1/2).
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    • Unpublished H2 adsorption experiments on 2 showed that in this case performance is much worse than with CO2. A maximum value of 0.070 wt, corresponding to 0.347 mmol/g of hydrogen adsorbed at-196 °C and at ρH2, 700 torr was recorded. Thus, selective gas sorption (i.e, gas separation) in a H2/CO2 mixture is achievable with 2
    • 2 mixture is achievable with 2.

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