Freeform 3D Plasmonic Superstructures

Abstract: Plasmonic nanoparticle clusters promise to support various, unique artificial electromagnetisms at optical frequencies, realizing new concept devices for diverse nanophotonic applications. However, the technological challenges associated with the fabrication of plasmonic clusters with programmed geometry and composition remain unresolved. Here, we present a freeform fabrication of hierarchical plasmonic clusters (HPCs) based on omnidirectional guiding of evaporative self-assembly of gold nanoparticles (AuNPs) … Show more

“…[25,26] 3D self-assembly assisted by nanopipette nozzle is promising for complex 3D printing, nevertheless the slow printing speed, weak mechanical stability of structures, and easy jam of the nozzle, hindering the usage for fast and multiscale fabrication. [27,28] 3D nanoprinting via charged aerosol jets is also demonstrated, making use of magnetic fields and dielectric masks to control the deposition of charged particles or ions. [29] Finer structures can also be produced with focused electron/ion beam-induced deposition, but these methods are generally slow and costly, and suffer from the contamination issue during fabrication process.…”

Two‐Photon Polymerization Lithography for Optics and Photonics: Fundamentals, Materials, Technologies, and Applications

“…[25,26] 3D self-assembly assisted by nanopipette nozzle is promising for complex 3D printing, nevertheless the slow printing speed, weak mechanical stability of structures, and easy jam of the nozzle, hindering the usage for fast and multiscale fabrication. [27,28] 3D nanoprinting via charged aerosol jets is also demonstrated, making use of magnetic fields and dielectric masks to control the deposition of charged particles or ions. [29] Finer structures can also be produced with focused electron/ion beam-induced deposition, but these methods are generally slow and costly, and suffer from the contamination issue during fabrication process.…”

Two‐Photon Polymerization Lithography for Optics and Photonics: Fundamentals, Materials, Technologies, and Applications