Dna nanostructure (32) | ![]() |
Metal nanostructure (3) | ![]() |
Nanobubble (4) | ![]() |
Nanocage (12) | ![]() |
Nanocapsule (25) | ![]() |
Nanocomposite (87) | ![]() |
Nanocube (23) | ![]() |
Nanofiber (112) | ![]() |
Nanofibre (6) | ![]() |
Nanoflake (7) | ![]() |
Nanofluid (9) | ![]() |
Nanoframe (10) | ![]() |
Nanohole (10) | ![]() |
Nanolattice (3) | ![]() |
Nanolayer (5) | ![]() |
Nanomesh (37) | ![]() |
Nanoneedle (12) | ![]() |
Nanopillar (20) | ![]() |
Nanopore (106) | ![]() |
Nanoribbon (83) | ![]() |
Nanoring (4) | ![]() |
Nanorod (69) | ![]() |
Nanosheet (85) | ![]() |
Nanostructure (323) | ![]() |
Nanotube (863) | ![]() |
Nanowire (491) | ![]() |
what they call three-dimensional nanolattices that are formed by a repeating nanoscale pattern. After the patterning step they coated the polymer scaffold with a ceramic called alumina
and removed the polymer core leaving a ceramic nanolattice. The lattice is constructed of hollow struts with walls no thicker than 75 nanometers. e are now able to design exactly the structure that we want to replicate
what they call three-dimensional nanolattices that are formed by a repeating nanoscale pattern. After the patterning step,
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