Salvador Barraza‐Lopez Data-verified
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Biography and Research Information
OverviewAI-generated summary
Salvador Barraza‐Lopez investigates the physical properties of two-dimensional materials, including group-IV monochalcogenides, graphene, and transition-metal dichalcogenides. His work explores their mechanical, electronic, optical, and piezoelectric characteristics. Recent research has focused on metastable piezoelectric monolayers, anomalous thermoelectricity in SnSe monolayers, and ferroelectric domains in heterostructures. Barraza‐Lopez also examines the effects of strain and substrate interference on material properties, such as second-harmonic generation in MoSe2 monolayers.
Metrics
- h-index: 30
- Publications: 147
- Citations: 3,712
Selected Publications
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Surface Diffusion in SnTe‐PbTe Monolayer Lateral Heterostructures (2026)
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Ferroelectrically switched valley-dependent transmission in SnTe-PbTe-SnTe monolayer lateral heterostructures (2025)
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Reference lattice, sound, stiffness, and magnetic transitions of Ising monolayers (2025)
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A lateral valley tunnel junction controlled by ferroelectric polarization (2025)
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Winding Berry dipoles on uniaxially strained graphene/insulator moiré superlattices (2025)
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Defect‐Free Nanowelding of Bilayer SnSe Nanoplates (Adv. Mater. 36/2024) (2024)
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Insulating moiré homobilayers lack a threefold symmetric second-harmonic generation (2024)
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Substrate Interference and Strain in the Second-Harmonic Generation from MoSe<sub>2</sub> Monolayers (2024)
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Defect‐Free Nanowelding of Bilayer SnSe Nanoplates (2024)
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Size-dependent ferroelectric-to-paraelectric sliding transformations and antipolar-to-ferroelectric topological phase transitions in binary homobilayers (2024)
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Tight-binding model with sublattice-asymmetric spin-orbit coupling for square-net nodal line Dirac semimetals (2024)
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Mechanical, electronic, optical, piezoelectric and ferroic properties of strained graphene and other strained monolayers and multilayers: an update (2023)
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Thermally driven phase transitions in freestanding low-buckled silicene, germanene, and stanene (2023)
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Creating a three-dimensional intrinsic electric dipole on rotated <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:msub><mml:mi mathvariant="normal">CrI</mml:mi><mml:mn>3</mml:mn></mml:msub></mml:math> bilayers (2023)
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Tight-binding model with sublattice-asymmetric spin-orbit coupling for square-net nodal line Dirac semimetals (2023)
Federal Grants 1 $499,113 total
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