Junction-level quantum interference governs magnetotransport in disordered low-dimensional networks, with positive MR tied to overlap length and negative MR to lattice-mismatched heterojunctions.
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Pressure up to 15.6 GPa collapses the bandgap in 2H-MoTe2 into a semimetallic state, replacing variable-range hopping with weak localization and antilocalization while a phenomenological model unifies the magnetoresistance across regimes.
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Quantum Limits of Electronic Transport in Nanostructured Macroscopic Conductors
Junction-level quantum interference governs magnetotransport in disordered low-dimensional networks, with positive MR tied to overlap length and negative MR to lattice-mismatched heterojunctions.
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Pressure-Tuned Competing Electronic States in Layered Tellurides
Pressure up to 15.6 GPa collapses the bandgap in 2H-MoTe2 into a semimetallic state, replacing variable-range hopping with weak localization and antilocalization while a phenomenological model unifies the magnetoresistance across regimes.