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) | ![]() |
An advantage of using metal nanostructures rather than inks is that it is possible to enhance the resolution of color images by a hundred fold.
metal nanostructures can scatter different wavelengths (colors) of light due to the fact that the tiny nanostructures themselves resonate at different wavelengths.
Localized surface plasmons of metal nanostructures result in unique optical properties with characteristics that depend upon the metal composition,
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