Symmetry analysis of ZnPc-MOF shows two-fold degenerate bands along Y lines in AB-stacked bilayers due to 2D irreps, polarization-dependent optical conductivity, and quasicrystalline states closer to the Fermi energy than in graphene.
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Growth conditions in TMDs function as thermodynamic boundary conditions that set defect landscapes and polytype stability, thereby determining the emergent electronic Hamiltonian and collective quantum phases.
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Symmetry-directed electronic and optical properties in a two-dimensional square-lattice ZnPc-MOF
Symmetry analysis of ZnPc-MOF shows two-fold degenerate bands along Y lines in AB-stacked bilayers due to 2D irreps, polarization-dependent optical conductivity, and quasicrystalline states closer to the Fermi energy than in graphene.
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Controlling Quantum Materials by Growth: Thermodynamics, Kinetics, and Defect Engineering in Transition Metal Dichalcogenides
Growth conditions in TMDs function as thermodynamic boundary conditions that set defect landscapes and polytype stability, thereby determining the emergent electronic Hamiltonian and collective quantum phases.