Formation of magnetite within the droplet phase of immiscible glass

T.M. Gross; D.E. Baker; L. Cai; B.M. Abel; I. Dutta; B.J. Rice

Open Ceramics (Dec 2024)

Formation of magnetite within the droplet phase of immiscible glass

T.M. Gross,
D.E. Baker,
L. Cai,
B.M. Abel,
I. Dutta,
B.J. Rice

Affiliations

T.M. Gross: Corresponding author.; Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA
D.E. Baker: Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA
L. Cai: Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA
B.M. Abel: Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA
I. Dutta: Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA
B.J. Rice: Corning Research and Development Corporation, Sullivan Park, Corning, NY, 14831, USA

Journal volume & issue: Vol. 20
p. 100672

Abstract

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An immiscible glass system consisting of a continuous silica-rich phase and a discontinuous droplet phase enriched in phosphorus form the glassy framework for a novel magnetite glass-ceramic. Upon cooling from the molten state, the material phase separates into the droplet-in-matrix structure and magnetite precipitates spontaneously within the phosphorus-enriched droplet phase. Magnetic hysteresis curves of an exemplary magnetite glass-ceramic show a saturation magnetization of ∼20 emu/g and magnetic remanence of 2.6 emu/g for a maximum externally applied field of 30 kOe. This novel material space provides a simple and economical means to produce magnetite glass-ceramics with potential suitability for a variety of biomedical applications.

Published in Open Ceramics

ISSN: 2666-5395 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Clay industries. Ceramics. Glass
Website: https://www.journals.elsevier.com/open-ceramics

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