Self-assembly Patterning of Nano/Micro-Particles                    [Translated]&lt;sup&gt;†&lt;/sup&gt;

Masuda, Yoshitake

doi:10.14356/kona.2007022

Cited by 2 publications

(1 citation statement)

References 20 publications

(42 reference statements)

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“…Figure shows the size variety of the SCAs manufactured by inkjet printing using the colloidal suspension BS305. They have a very regular hexagonal ordering of the nanosphere particles at the surface comparable to the surface of SCAs reported in the literature ,,,,,,,,− based on other manufacturing methods. However, there are also some point as well as line defects such as grain boundary scars , visible at the surface of the spheres.…”

Section: Resultssupporting

confidence: 60%

Self-Assembly of Spherical Colloidal Photonic Crystals inside Inkjet-Printed Droplets

Sowade

Blaudeck

Baumann

2016

Crystal Growth & Design

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The manufacturing of three-dimensional colloidal structures on solid substrates is an important topic of applied research, aiming for photonic components especially in photovoltaic and sensor applications. Whereas conventional techniques such as wet self-assembly are based on engineering of the substrate surface energy, alternative strategies envisage the independence of the interfacial conditions. We report on inkjet printing of colloidal suspensions of monodisperse silica or polystyrene nanoparticles or both and their self-assembly to spherical colloidal photonic crystals. The formation process of the colloidal nanoparticles into stable spherical colloidal assemblies (SCAs) is achieved by a self-assembly process inside tiny droplets of a stochastic mist generated intentionally instead of a jet of individual single droplets using inkjet printing. The mist-jetted, shrinking droplets serve as confined geometries for the solidification of the nanoparticles during the evaporation; thus the particles are packed into stable ball-shaped assemblies. We show how fine-tuning of the jetting parameters allows the reliable generation and deposition of three-dimensional (3D) spherical colloidal assemblies of nanoparticles variable in size and with a high packing order. Microreflectance spectroscopy proves that the degree of order in the SCA is such that photonic stop bands occur inherent for photonic crystals.

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Section: Resultssupporting

confidence: 60%

Self-Assembly of Spherical Colloidal Photonic Crystals inside Inkjet-Printed Droplets

Sowade

Blaudeck

Baumann

2016

Crystal Growth & Design

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Two-Dimensional Superstructures from the Gas Phase: Directed Assembly of Copper-Sulfide Nanoplatelets

et al. 2023

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We report on a novel plasma-assisted approach for the deposition of free-standing two-dimensional superstructures via directed assembly of copper-sulfide nanoplatelets in the gas phase. For this, the copper-organic complex bis-[bis(N,N-diethyldithiocarbamato)-copper(II)] is thermally evaporated and transported into a capacitively coupled rf plasma to form two-dimensional nanoplatelets upon fragmentation. On a substrate, the highly anisotropic platelets are attached in a directed edge-to-edge configuration. We found that a high substrate temperature of 400 °C is necessary for the 2D vertical growth of copper sulfide. Using plasma reinforces the directional assembly and leads to nanowalls which are several micrometers high with the thickness of a single nanoplatelet. The morphology and crystallographic composition of the emerging superstructures were extensively investigated via scanning and transmission electron microscopy as well as electron diffraction. The data reveal the (010) plane to be the preferred axis for the arrangement of the nanoplatelets.

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Self-assembly Patterning of Nano/Micro-Particles [Translated]<sup>†</sup>

Cited by 2 publications

References 20 publications

Self-Assembly of Spherical Colloidal Photonic Crystals inside Inkjet-Printed Droplets

Self-Assembly of Spherical Colloidal Photonic Crystals inside Inkjet-Printed Droplets

Two-Dimensional Superstructures from the Gas Phase: Directed Assembly of Copper-Sulfide Nanoplatelets

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