Tailoring Se-rich glassy arsenoselenides employing the nanomilling platform

Tailoring Se-rich glassy arsenoselenides employing the nanomilling platform

By XRPD analysis related to diffuse peak-halos in Se-rich glassy AsxSe100-x, the high-energy nanomilling driven reamorphization in these substances is recognized as molecular-to-network transformations of Se chains bridging cation polyhedrons (like AsSe3/2 pyramids) from preferential cis- to trans-c...

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Bibliographic Details
Published in:Materials science & engineering. B, Solid-state materials for advanced technology Vol. 300; p. 117069
Main Authors: Shpotyuk, Yaroslav, Shpotyuk, Oleh, Lukáčová Bujňáková, Zdenka, Baláž, Peter, Hyla, Malgorzata, Boussard-Pledel, Catherine, Bureau, Bruno
Format: Journal Article
Language:English
Published: Elsevier 01-02-2024
Series:Materials Science and Engineering: B
Subjects:
Chemical Sciences
Material chemistry
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Summary:By XRPD analysis related to diffuse peak-halos in Se-rich glassy AsxSe100-x, the high-energy nanomilling driven reamorphization in these substances is recognized as molecular-to-network transformations of Se chains bridging cation polyhedrons (like AsSe3/2 pyramids) from preferential cis- to trans-configurated topology. At the medium-range structure, the process of reamorphization is revealed as enhancement in the intermediate-range ordering of these glasses due to high-angular shifted and broadened first sharp diffraction peak (FSDP) accompanied by suppression in extended-range ordering due to high-angular shifted but narrowed principal diffraction peak (PDP), so that peak-halos become more distinguishable after nanomilling. Principal trend in the XRPD patterns of glassy arsenoselenides with growing Se content is revealed as suppression in intermediate-range ordering accompanied by enhancement in extended-range ordering, resulting in more overlapped peak-halos. Irregular sequence of randomly distributed cis- and trans-configurated linkages in Se-rich g-AsxSe100-x is visualized by ab initio quantum-chemical modeling of molecular and chain-like network clusters.
ISSN:0921-5107
1873-4944
DOI:10.1016/j.mseb.2023.117069