The transformation between aragonite and calcite, the two most common CaCO3 polymorphs, is encountered both in geological and biological (nacre-like) minerals. Recently, the origin of the new polymorph hexaragonite at room temperature and pressure and analysed in detail the homoepitaxy as a new physical phenomenon for both structures is discussed. Here, at first distinguishing epitaxy from topotaxy, which rules the main mechanisms of calcite-aragonite transitions. Then, attempt to move from qualitative to quantitative descriptions of these transitions. Hence, it will deal with 2D (epitaxy) and 3D (topotaxy) conversions in the polymorphic system, in order to gain insight into their differences, resulting from literature experiments and calculation constraints.
Epitaxy and Topotaxy in the Aragonite‐Calcite Polymorphism
Aquilano, D.;Ghignone, S.;Bruno, M.
2025-01-01
Abstract
The transformation between aragonite and calcite, the two most common CaCO3 polymorphs, is encountered both in geological and biological (nacre-like) minerals. Recently, the origin of the new polymorph hexaragonite at room temperature and pressure and analysed in detail the homoepitaxy as a new physical phenomenon for both structures is discussed. Here, at first distinguishing epitaxy from topotaxy, which rules the main mechanisms of calcite-aragonite transitions. Then, attempt to move from qualitative to quantitative descriptions of these transitions. Hence, it will deal with 2D (epitaxy) and 3D (topotaxy) conversions in the polymorphic system, in order to gain insight into their differences, resulting from literature experiments and calculation constraints.
| File | Dimensione | Formato | |
|---|---|---|---|
|
Aquilano et al. 2025a.pdf
Accesso aperto
Dimensione
665.35 kB
Formato
Adobe PDF
|
665.35 kB | Adobe PDF | Visualizza/Apri |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
