Results 241 to 250 of about 52,373 (281)
Polarized Superradiance from CsPbBr<sub>3</sub> Quantum Dot Superlattice with Controlled Interdot Electronic Coupling. [PDF]
Nano LettLuo L +10 more
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Unveiling the Miniband Structure of Graphene Moiré Superlattices via Gate-Dependent Terahertz Photocurrent Spectroscopy. [PDF]
ACS NanoDelgado-Notario JA +11 more
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Thermally driven surface phase separation in intermetallic alloys. [PDF]
Nat CommunPatel SB +13 more
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The interplay of ferroelectricity and magneto-transport in non-magnetic moiré superlattices. [PDF]
Nat CommunJiang S +22 more
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Enhancing Interlayer Bonding in DLP-Printed Piezoelectric Ceramics via Controlled Secondary Curing for High Piezoelectric Performance. [PDF]
Adv Sci (Weinh)Zhao Y +9 more
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Fabrication and Characterization of the Moiré Surface State on a Topological Insulator. [PDF]
Nano LettZhang Y +21 more
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Annual Review of Physical Chemistry, 1998
▪ Abstract Ordered arrays, or superlattices, of metallic, insulating, or semiconducting quantum dots, represent an exciting new class of materials. These superlattices are often referred to as artificial solids, in which the nanocrystals take the place of atoms in traditional solids, and the packing arrangement of the nanocrystals determines the unit
Collier, C. P. +2 more
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▪ Abstract Ordered arrays, or superlattices, of metallic, insulating, or semiconducting quantum dots, represent an exciting new class of materials. These superlattices are often referred to as artificial solids, in which the nanocrystals take the place of atoms in traditional solids, and the packing arrangement of the nanocrystals determines the unit
Collier, C. P. +2 more
openaire +3 more sources
Nano Letters, 2023
Moiré superlattices from stacks of van der Waals materials offer an exciting arena in the fields of condensed matter physics and materials science. Typically, these moiré superlattices consist of materials with identical or similar structures, and the long moiré period arises from a small twist angle or lattice mismatch.
Yusen Ye +5 more
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Moiré superlattices from stacks of van der Waals materials offer an exciting arena in the fields of condensed matter physics and materials science. Typically, these moiré superlattices consist of materials with identical or similar structures, and the long moiré period arises from a small twist angle or lattice mismatch.
Yusen Ye +5 more
openaire +2 more sources
Cluster Superlattice Membranes
ACS Nano, 2020Cluster superlattice membranes consist of a two-dimensional hexagonal lattice of similar-sized nanoclusters sandwiched between single-crystal graphene and an amorphous carbon matrix. The fabrication process involves three main steps, the templated self-organization of a metal cluster superlattice on epitaxial graphene on Ir(111), conformal embedding in
Tobias Hartl +15 more
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Journal of Vacuum Science and Technology, 1979
The MBE technique has made feasible the growth of periodic semiconductor structures composed of ultrathin layers with alternating p- and n-doping. This kind of superlattice, in contrast to familiar heterostructure systems, does not contain any interfaces, and, therefore, does not show the problems related to those. Doping superlattices, on the contrary,
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The MBE technique has made feasible the growth of periodic semiconductor structures composed of ultrathin layers with alternating p- and n-doping. This kind of superlattice, in contrast to familiar heterostructure systems, does not contain any interfaces, and, therefore, does not show the problems related to those. Doping superlattices, on the contrary,
openaire +1 more source