Maximilian J. Müller
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View article: Roadmap for phase change materials in photonics and beyond
Roadmap for phase change materials in photonics and beyond Open
View article: Roadmap for phase change materials in photonics and beyond
Roadmap for phase change materials in photonics and beyond Open
Phase Change Materials (PCMs) have demonstrated tremendous potential as a platform for achieving diverse functionalities in active and reconfigurable micro-nanophotonic devices across the electromagnetic spectrum, ranging from terahertz to…
View article: Highly tunable β-relaxation enables the tailoring of crystallization in phase-change materials
Highly tunable β-relaxation enables the tailoring of crystallization in phase-change materials Open
View article: Roadmap on chalcogenide photonics
Roadmap on chalcogenide photonics Open
Alloys of sulfur, selenium and tellurium, often referred to as chalcogenide semiconductors, offer a highly versatile, compositionally-controllable material platform for a variety of passive and active photonic applications. They are optica…
View article: Tailoring Crystallization Kinetics of Chalcogenides for Photonic Applications (Adv. Electron. Mater. 8/2022)
Tailoring Crystallization Kinetics of Chalcogenides for Photonic Applications (Adv. Electron. Mater. 8/2022) Open
View article: Tailoring Crystallization Kinetics of Chalcogenides for Photonic Applications
Tailoring Crystallization Kinetics of Chalcogenides for Photonic Applications Open
Chalcogenides possess interesting optical properties, which are attractive for a variety of applications such as data storage, neuromorphic computing, and photonic switches. Lately a group of covalently bonded chalcogenides including Sb 2 …
View article: The potential of chemical bonding to design crystallization and vitrification kinetics
The potential of chemical bonding to design crystallization and vitrification kinetics Open
View article: Crystallization and Vitrification Kinetics by Design: The Role of Chemical Bonding
Crystallization and Vitrification Kinetics by Design: The Role of Chemical Bonding Open
Controlling a state of material between its crystalline and glassy phase has fostered many real-world applications. Nevertheless, design rules for crystallization and vitrification kinetics still lack predictive power. Here, we identify st…
View article: Crystallization and Vitrification Kinetics by Design: The Role of\n Chemical Bonding
Crystallization and Vitrification Kinetics by Design: The Role of\n Chemical Bonding Open
Controlling a state of material between its crystalline and glassy phase has\nfostered many real-world applications. Nevertheless, design rules for\ncrystallization and vitrification kinetics still lack predictive power. Here,\nwe identify…
View article: Estimating the Probability Density Function of New Fabrics for Fabric Anomaly Detection
Estimating the Probability Density Function of New Fabrics for Fabric Anomaly Detection Open