OSET treats shear-eigenstrained oblate spheroids as elementary carriers of plastic flow whose co-planar chains reproduce Peierls-Nabarro dislocations in the large-N limit, yielding parameter-free expressions for shear strength and related quantities.
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cond-mat.mtrl-sci 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
DFT calculations show that specific transition-metal substitutions in Ga2O2 monolayers enable selective room-temperature gas sensing or permanent scavenging for NO, NO2, CO, CO2, and O2.
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Oblate Spheroid Excitation Theory: A Unified, Lattice-Free Foundation for Plastic Deformation from Which Dislocations Emerge as Collective Excitations
OSET treats shear-eigenstrained oblate spheroids as elementary carriers of plastic flow whose co-planar chains reproduce Peierls-Nabarro dislocations in the large-N limit, yielding parameter-free expressions for shear strength and related quantities.
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Transition-Metal Tailored $Ga_{2}O_{2}$ Monolayer: From Room-Temperature Gas Sensing to Chemical Scavenging
DFT calculations show that specific transition-metal substitutions in Ga2O2 monolayers enable selective room-temperature gas sensing or permanent scavenging for NO, NO2, CO, CO2, and O2.