Multiscale simulations and in-situ plasmonic sensing map surfactant phase transitions to optical extinction shifts, enabling kinetic extraction with a reversal signature upon hydration changes.
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The study identifies a previously unreported 1×2 surface reconstruction on β-Ga₂O₃(001) formed by paired GaO₄ tetrahedra that remains stable across wide oxygen and gallium chemical potential ranges and matches experimental STEM images.
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Revealing the kinetics of interfacial surfactant phase transitions through multiscale simulations and in-situ plasmonic sensing
Multiscale simulations and in-situ plasmonic sensing map surfactant phase transitions to optical extinction shifts, enabling kinetic extraction with a reversal signature upon hydration changes.
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$\beta$-Ga$_2$O$_3$(001) surface reconstructions from first principles and experiment
The study identifies a previously unreported 1×2 surface reconstruction on β-Ga₂O₃(001) formed by paired GaO₄ tetrahedra that remains stable across wide oxygen and gallium chemical potential ranges and matches experimental STEM images.