On the confluence of ultrafast high‐temperature sintering and flash sintering phenomena

Ultrafast high‐temperature sintering (UHS) and flash sintering are novel methods for rapid sintering of ceramics, often completed in just a few seconds. Here, we show that both also share two additional features: an abrupt rise in electrical conductivity, which is electronic, and electroluminescence...

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Veröffentlicht in:	Journal of the American Ceramic Society 2023-07, Vol.106 (7), p.3983-3998
Hauptverfasser:	Raj, Rishi, Wolf, Dietrich E., Yamada, Carolina N., Jha, Shikhar K., Lebrun, Jean‐Marie
Format:	Artikel
Sprache:	eng
Schlagworte:	Brillouin zones Cerium oxides Electric fields Electrical resistivity Electroluminescence electronic conductivity flash sintering Heating rate MATERIALS SCIENCE Phonons Resistance sintering Silk Sintering Thin films Thorium Thorium oxides ultrafast heating rate sintering Zirconium dioxide
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creator	Raj, Rishi Wolf, Dietrich E. Yamada, Carolina N. Jha, Shikhar K. Lebrun, Jean‐Marie
description	Ultrafast high‐temperature sintering (UHS) and flash sintering are novel methods for rapid sintering of ceramics, often completed in just a few seconds. Here, we show that both also share two additional features: an abrupt rise in electrical conductivity, which is electronic, and electroluminescence. More fundamentally, both are related to phonon physics where MD calculations have shown that proliferation of phonons at the edge of the Brillouin zone can induce Frenkel pairs without the application of electrical fields. Here, we show that, indeed, heating without the application of electric field, can also induce flash: Rapid heating processes of thin films of an oxide‐salt deposited on silk fibers, with a propane torch, are shown to induce electronic conductivity, electroluminescence, and rapid sintering of the oxide. The discussion in this article harkens back to two inventions, more than a century ago, which can now be related to flash and UHS: (i) the Nernst glow lamp circa 1900, made from zirconia, and (ii) the Welsbach mantle, constituted from ceria doped thorium oxide, in the late nineteenth century. Thus, the confluence between high heating rate and electric field induced flash phenomena links the past to the new. The emerging question is how injection of phonons that has been shown to create Frenkels can further induce high electronic conductivity and electroluminescence in oxides. Both electronic conductivity and luminescence are likely related to the generation of electron–hole pairs.
doi_str_mv	10.1111/jace.19070
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Here, we show that both also share two additional features: an abrupt rise in electrical conductivity, which is electronic, and electroluminescence. More fundamentally, both are related to phonon physics where MD calculations have shown that proliferation of phonons at the edge of the Brillouin zone can induce Frenkel pairs without the application of electrical fields. Here, we show that, indeed, heating without the application of electric field, can also induce flash: Rapid heating processes of thin films of an oxide‐salt deposited on silk fibers, with a propane torch, are shown to induce electronic conductivity, electroluminescence, and rapid sintering of the oxide. The discussion in this article harkens back to two inventions, more than a century ago, which can now be related to flash and UHS: (i) the Nernst glow lamp circa 1900, made from zirconia, and (ii) the Welsbach mantle, constituted from ceria doped thorium oxide, in the late nineteenth century. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Brillouin zones Cerium oxides Electric fields Electrical resistivity Electroluminescence electronic conductivity flash sintering Heating rate MATERIALS SCIENCE Phonons Resistance sintering Silk Sintering Thin films Thorium Thorium oxides ultrafast heating rate sintering Zirconium dioxide
title	On the confluence of ultrafast high‐temperature sintering and flash sintering phenomena
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