Studying the Crystallization of Polyoxometalates from Colloidal Softoxometalates

Thomas, Preethi ; Chandel, Shubham ; Mallick, Apabrita ; Sreejith, S. S. ; Ghosh, Nirmalya ; Roy, Soumyajit (2018) Studying the Crystallization of Polyoxometalates from Colloidal Softoxometalates Crystal Growth & Design, 18 (7). pp. 4068-4075. ISSN 1528-7483

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Official URL: http://doi.org/10.1021/acs.cgd.8b00443

Related URL: http://dx.doi.org/10.1021/acs.cgd.8b00443

Abstract

Understanding crystallization of polyoxometalates is challenging. The chemistry of the reactive oxometalates renders any physical modelling impossible as it is not clear how the speciation in solution occurs. In this study we circumvent this problem by using a model system of ammonium heptamolybdate tetrahydrate which has robust molecular structure and shows phase changes from true solution to colloidal softoxometalates (SOMs) to crystals as a function of concentration or volume fraction without any chemical change (problem of speciation) in the system. Temperature and ionic strength variation studies have been conducted with respect to volume fraction to construct a phase diagram showing the transitions from true solution to colloidal SOMs to crystals. The stabilization of the SOM phase has been shown to take place via the established counter ion condensation model in colloidal oxometalates. Transition from colloidal to crystalline phase has been observed at volume fractions of 0.1 and 0.19 at elevated temperature. These phase transitions have been studied using laser set up of Mueller matrix polarimetry, Raman spectroscopy, ESI-MS. The crystallization of polyoxometalates from colloidal SOM phase has been tested at the corresponding volume fractions by measurement of the osmotic compressibility of colloidal SOM phase by light scattering using Baxter type model. The study thus puts forward a clear picture in the matter of crystallization of polyoxometalates. When chemical speciation does not occur in the system, oxometalates form colloids or the SOM phase which undergoes phase transition to crystalline (polyoxometalate) POM phase. This study thus leads to the immediate causal conclusion that all polyoxometalate crystallizations are in fact phase transitions from colloidal (SOM) to crystalline phase once the chemistry of speciation is complete. Hence understanding the colloidal SOM phase in detail could lead to crystal engineering of the POMs in a facile and controlled manner.

Item Type:Article
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ID Code:127875
Deposited On:14 Oct 2022 11:40
Last Modified:14 Oct 2022 11:40

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