AI Article Synopsis
- Researchers studied how cadmium (Cd) can be captured from phosphate solutions by replacing calcium carbonate (CaCO) with phosphate phases like hydroxylapatite (HAP) and tricalcium phosphate (TCP) under varying temperature and pressure conditions.
- Different advanced techniques, including atomic force microscopy and Raman spectroscopy, were used to observe the incorporation of Cd into new solid phosphate phases formed on materials like Carrara Marble and calcite crystals.
- The findings suggest that while kinetic limitations may restrict Cd capture within the marble's structure, the surface allows for efficient incorporation, offering a potential method for removing both Cd and phosphate from contaminated environments.
Article Abstract
The capture of cadmium (Cd) from phosphate-containing solutions during the replacement of CaCO by phosphate phases such as hydroxylapatite (HAP) and tricalcium phosphate (TCP) has been studied under high and low temperature and pressure conditions using atomic force microscopy, scanning electron microscopy equipped with an X-ray spectrometer and a backscattered electron detector, Raman spectroscopy, and microprobe analysis. Starting with cubes of Carrara Marble (polycrystalline calcite) and single crystals of calcite, a new solid phosphate phase was observed to incorporate Cd from solution, formed under different pressure and temperature conditions tested. Results showed that Cd precipitated in a new phase on the surface of all samples tested. In Carrara Marble, pseudomorphic replacement of CaCO is restricted possibly due to kinetic limitation caused by the adsorption of Cd complexes formed in solution at reactive surface sites and the variation of fluid composition inside the sample. However, on the sample surface, this kinetic limitation is less influential, so the new phase could incorporate higher amounts of Cd faster. Furthermore, this reaction at room temperature was found to have similar and/or better Cd-uptake efficiency as HAP and CaCO in pure Cd solution through the precipitation of Cd-containing phosphate crystals on the sample surface. Both reactions were able to capture Cd in the precipitating phase structure and could provide a mechanism for simultaneous Cd and phosphate removal from solutions contaminated with both, in industrial or natural settings.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11262429 | PMC |
| http://dx.doi.org/10.1021/acsearthspacechem.4c00031 | DOI Listing |
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