2D verbeekite, the monoclinic phase of PdSe2, was directly synthesized under the Se deficient condition using an ambient-pressure chemical vapor deposition method.
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Magnons in a honeycomb-lattice ferromagnet have an analogous description to the single-orbital tight-binding model for electrons in graphene.
Molten salts attract resurgent attention because of their unique physiochemical properties, making them promising media for next generation concentrating solar power systems and molten salt reactors, but many fundamental questions remain unanswered.
New computational architectures based on topological materials have been proposed that could be faster with simultaneously lower energy consumption.
The concept of “frustration” in spin systems is widely used to stabilize new states in thin films or crystals. Frustration indicates that spins have conflicting tendencies and a compromise spin state emerges from this competition.
Kagome lattice (the name of kagome came from Japanese woven baskets) consists of interconnected triangles.
Ni3In2S2 is an example of a kagome metal, with nickel atoms in corner sharing triangles arranged in a 2D kagome lattice.
Scanning tunneling microscopy (STM) and point contact Andreev reflection (PCAR) are widely adopted techniques for measurements of superconducting states.
Spiral spin-liquids are correlated paramagnetic states with degenerate propagation vectors forming a continuous ring or surface in reciprocal space.
Researchers discovered a mechanism for creating novel electronic materials by reversible phase transformations of the perovskite oxygen sublattice.1 The reversible tuning of the oxygen sublattice greatly expands the parameter space of magnetic and elect