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Einfluss der Selensubstitution auf die Phasenwechseleigenschaften von Ge 2 Sb 2 Te 5 und Ge 1 Sb 2 Te 4
Enthalten in Zeitschrift für anorganische und allgemeine Chemie Bd. 632, 2006, Nr. 12‐13: 2119-2119. 1 S.
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Atomic stacking and van-der-Waals bonding in GeTe–Sb2Te3 superlattices
Enthalten in Journal of materials research Bd. 31, 27.9.2016, Nr. 20, date:10.2016: 3115-3124
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Enthalten in ChemInform Bd. 42, 2011, Nr. 45: no-no. 1 S.
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Defects in amorphous phase-change materials
Enthalten in Journal of materials research Bd. 28, 1.5.2013, Nr. 9, date:5.2013: 1139-1147
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Density-functional theory guided advances in phase-change materials and memories
Enthalten in Materials Research Society: MRS bulletin Bd. 40, 8.10.2015, Nr. 10, date:10.2015: 856-869
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Direct programming of confined surface phonon polariton resonators with the plasmonic phase-change material In3SbTe2
Enthalten in Nature Communications Bd. 15, 24.4.2024, Nr. 1, date:12.2024: 1-8
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Doping strategy in metavalently bonded materials for advancing thermoelectric performance
Enthalten in Nature Communications Bd. 15, 27.9.2024, Nr. 1, date:12.2024: 1-10
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Exploring the limits of fast phase change materials
Enthalten in Materials Research Society: MRS online proceedings library Bd. 674, 21.3.2011, Nr. 1, date:12.2001: 1-6
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From phase-change materials to thermoelectrics: The role of metavalent bonding
Enthalten in Journal of materials research Bd. 40, 6.6.2025, Nr. 12, date:6.2025: 1747-1756
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Highly tunable β-relaxation enables the tailoring of crystallization in phase-change materials
Enthalten in Nature Communications Bd. 13, 29.11.2022, Nr. 1, date:12.2022: 1-9
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