DNA origami has proven useful for organizing diverse nanoscale components into patterns with 6 nm resolution. However for many applications, such as nanoelectronics, large-scale organization of ...
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Overlapping moiré lattices in 2D materials yield tunable quantum properties and novel atomic motifs
A joint research team has successfully developed a two-dimensional (2D) quantum material platform through the superposition of moiré lattices. The research is published in Nature under the title ...
Scientists have used DNA's self-assembling properties to engineer intricate moiré superlattices at the nanometer scale—structures that twist and layer like never before. With clever molecular ...
New twist: a smeared out signal can transform into a soliton, depending on the laser powers and the twist angle of the optical moiré lattice. (Courtesy: Fangwei Ye) Moiré lattices — wherever they form ...
Joining different kinds of materials can lead to all kinds of breakthroughs. It’s an essential skill that allowed humans to make everything from skyscrapers (by reinforcing concrete with steel) to ...
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