Buchumschlag von Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition

Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase tran...

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Zeitschriftentitel:	Dalton Transactions
Personen und Körperschaften:	Pal, Shiv Kumar, Chandel, N., Mehta, N.
In:	Dalton Transactions, 48, 2019, 14, S. 4719-4729
Medientyp:	E-Article
Sprache:	Englisch
veröffentlicht:	Royal Society of Chemistry (RSC)
Schlagwörter:	Inorganic Chemistry

author_facet	Pal, Shiv Kumar Chandel, N. Mehta, N. Pal, Shiv Kumar Chandel, N. Mehta, N.
author	Pal, Shiv Kumar Chandel, N. Mehta, N.
spellingShingle	Pal, Shiv Kumar Chandel, N. Mehta, N. Dalton Transactions Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition Inorganic Chemistry
author_sort	pal, shiv kumar
spelling	Pal, Shiv Kumar Chandel, N. Mehta, N. 1477-9226 1477-9234 Royal Society of Chemistry (RSC) Inorganic Chemistry http://dx.doi.org/10.1039/c8dt03729a <p>According to recent literature, germanium-containing chalcogenide glasses (ChGs) show improvement in thermal stability and glass-forming ability because of the self-organization of the glass network towards a more rigid structure.</p> Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition Dalton Transactions
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title	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_unstemmed	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_full	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_fullStr	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_full_unstemmed	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_short	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_sort	synthesis and thermal characterization of novel phase change materials (pcms) of the se–te–sn–ge (stsg) multi-component system: calorimetric studies of the glass/crystal phase transition
topic	Inorganic Chemistry
url	http://dx.doi.org/10.1039/c8dt03729a
publishDate	2019
physical	4719-4729
description	<p>According to recent literature, germanium-containing chalcogenide glasses (ChGs) show improvement in thermal stability and glass-forming ability because of the self-organization of the glass network towards a more rigid structure.</p>
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author	Pal, Shiv Kumar, Chandel, N., Mehta, N.
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description	<p>According to recent literature, germanium-containing chalcogenide glasses (ChGs) show improvement in thermal stability and glass-forming ability because of the self-organization of the glass network towards a more rigid structure.</p>
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spelling	Pal, Shiv Kumar Chandel, N. Mehta, N. 1477-9226 1477-9234 Royal Society of Chemistry (RSC) Inorganic Chemistry http://dx.doi.org/10.1039/c8dt03729a <p>According to recent literature, germanium-containing chalcogenide glasses (ChGs) show improvement in thermal stability and glass-forming ability because of the self-organization of the glass network towards a more rigid structure.</p> Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition Dalton Transactions
spellingShingle	Pal, Shiv Kumar, Chandel, N., Mehta, N., Dalton Transactions, Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition, Inorganic Chemistry
title	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_full	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_fullStr	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_full_unstemmed	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_short	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
title_sort	synthesis and thermal characterization of novel phase change materials (pcms) of the se–te–sn–ge (stsg) multi-component system: calorimetric studies of the glass/crystal phase transition
title_unstemmed	Synthesis and thermal characterization of novel phase change materials (PCMs) of the Se–Te–Sn–Ge (STSG) multi-component system: calorimetric studies of the glass/crystal phase transition
topic	Inorganic Chemistry
url	http://dx.doi.org/10.1039/c8dt03729a