2020
DOI: 10.1038/s41467-020-17632-4
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Structural order in plasmonic superlattices

Abstract: The assembly of plasmonic nanoparticles into ordered 2D-and 3D-superlattices could pave the way towards new tailored materials for plasmonic sensing, photocatalysis and manipulation of light on the nanoscale. The properties of such materials strongly depend on their geometry, and accordingly straightforward protocols to obtain precise plasmonic superlattices are highly desirable. Here, we synthesize large areas of crystalline mono-, bi-and multilayers of gold nanoparticles >20 nm with a small number of defects… Show more

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Cited by 79 publications
(144 citation statements)
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“…Plasmonic supercrystals were synthesized by self‐assembly of polystyrene‐coated AuNP (AuNP@PSSH) at a toluene‐diethylene glycol (DEG) liquid‐liquid interface as described recently. [ 18 ] The synthesis protocol (see Section 5.) yields well‐defined supercrystals with crystallite sizes > 1000 µm 2 , few defects and a layered structure ( Figure ).…”
Section: Resultsmentioning
confidence: 99%
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“…Plasmonic supercrystals were synthesized by self‐assembly of polystyrene‐coated AuNP (AuNP@PSSH) at a toluene‐diethylene glycol (DEG) liquid‐liquid interface as described recently. [ 18 ] The synthesis protocol (see Section 5.) yields well‐defined supercrystals with crystallite sizes > 1000 µm 2 , few defects and a layered structure ( Figure ).…”
Section: Resultsmentioning
confidence: 99%
“…The closest packing of the “hard‐spheres” (AuNP + polymer shell) results in a non‐closed packing of the AuNP‐cores, that can be tuned via the thickness of the polymer shell (i.e., molecular mass of the ligand), a major advantage of polymers compared to small molecular ligands. [ 18,21,22,26,27 ] The particle‐particle interactions in such systems are dominated by the polymer shell. Because the system is nonpolar, electrostatic contributions can be neglected, leaving Van‐der‐Waals attractive forces between the AuNP‐cores and repulsive forces upon compression of the polymer shells at decreasing interparticle distances.…”
Section: Discussionmentioning
confidence: 99%
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“…The positively charged microdroplets convert polydispersed Ag@PET NPs to an ordered 2D superlattice structure of uniform NPs. [21][22][23][24][25][26][27][28] A superlattice in the current context refers to a localized periodic assembly of uniform NPs which possess inherent periodicity of the element. Such structures are possible only with uniform particles and the Ag@PET NPs Fig.…”
Section: Observation Of Microdroplet Annealingmentioning
confidence: 99%