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Remote imprinting of moiré lattices
Two-dimensional moiré materials are formed by overlaying two layered crystals with small differences in orientation or/and lattice constant, where...
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Moiré straintronics: a universal platform for reconfigurable quantum materials
Large-scale two-dimensional (2D) moiré superlattices are driving a revolution in designer quantum materials. The electronic interactions in these...
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A microscopic perspective on moiré materials
Contemporary quantum materials research is guided by themes of topology and electronic correlations. A confluence of these two themes is engineered...
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Moiré superlattices in twisted two-dimensional halide perovskites
Moiré superlattices have emerged as a new platform for studying strongly correlated quantum phenomena, but these systems have been largely limited to...
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Moiré-superlattice MXenes enabled ultra-stable K-ion storage in neutral electrolyte
Ti 3 C 2 MXene is an auspicious energy storage material due to its metallic conductivity and layered assembly. However, in the real working condition of...
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Intercell moiré exciton complexes in electron lattices
Excitons, Coulomb-bound electron–hole pairs, play a crucial role in both optical excitation and correlated phenomena in solids. When excitons...
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Excitons in mesoscopically reconstructed moiré heterostructures
Moiré effects in vertical stacks of two-dimensional crystals give rise to new quantum materials with rich transport and optical phenomena that...
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Tunable moiré materials for probing Berry physics and topology
Berry curvature physics and quantum geometric effects have been instrumental in advancing topological condensed matter physics in recent decades....
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Dynamically tunable moiré exciton Rydberg states in a monolayer semiconductor on twisted bilayer graphene
Moiré excitons are emergent optical excitations in two-dimensional semiconductors with moiré superlattice potentials. Although these excitations have...
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Switchable moiré potentials in ferroelectric WTe2/WSe2 superlattices
Moiré materials with superlattice periodicity many times the atomic length scale have shown strong electronic correlations and band topology with...
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Far-field coupling between moiré photonic lattices
Superposing two or more periodic structures to form moiré patterns is emerging as a promising platform to confine and manipulate light. However,...
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Pressure tuning of minibands in MoS2/WSe2 heterostructures revealed by moiré phonons
Moiré superlattices of two-dimensional heterostructures arose as a new platform to investigate emergent behaviour in quantum solids with...
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Electrostatic moiré potential from twisted hexagonal boron nitride layers
Moiré superlattices host a rich variety of correlated electronic phases. However, the moiré potential is fixed by interlayer coupling, and it is...
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Excitons in semiconductor moiré superlattices
Semiconductor moiré superlattices represent a rapidly develo** area of engineered photonic materials and a new platform to explore correlated...
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Moiré-pattern-modulated electronic structures in Sb2Te3/graphene heterostructure
Moiré superlattice has recently been found in topological insulators, which can lead to periodic modulation on the electronic structure. In this...
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Prolonged dephasing time of ensemble of moiré-trapped interlayer excitons in WSe2-MoSe2 heterobilayers
The moiré superlattices of transition metal dichalcogenide heterobilayers have a pronounced effect on the optical properties of interlayer excitons...
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Evidence for interlayer coupling and moiré excitons in twisted WS2/WS2 homostructure superlattices
The formation of moiré superlattices in twisted van der Waals (vdW) homostructures provides a versatile platform for designing the electronic band...
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