Printing on particles: combining two-photon nanolithography and capillary assembly to fabricate multi-material microstructures

TL;DR

This paper introduces a novel method combining two-photon nanolithography and capillary assembly to create complex multi-material microstructures with precise placement and design flexibility.

Contribution

It develops a new integrated approach for fabricating multi-material microstructures by combining directed capillary assembly with two-photon direct laser writing.

Findings

Enables creation of tailored multi-material microstructures

Uses automated algorithms for particle recognition and assembly

Structures can be easily harvested and re-dispersed

Abstract

Additive manufacturing at the micro- and nanoscale has seen a recent upsurge to suit the increasing demand for more elaborate structures. However, the integration and precise placement of multiple distinct materials at small scales remain a challenge. To this end, we combine here the directed capillary assembly of colloidal particles and two-photon direct laser writing (DLW) to realize a new class of multi-material microstructures. We use DLW both to fabricate 3D micro-templates to guide the capillary assembly of soft- and hard colloids, and to link well-defined arrangements of polystyrene or silica particles produced with capillary assembly, a process we term "printing on particles". The printing process is based on automated particle recognition algorithms and enables the user to connect colloids into one- and two-dimensional tailored structures, including particle clusters and lattices of varying symmetry and composition, using commercial photo-resists (IP-L or IP-PDMS). Once printed and developed, the structures can be easily harvested and re-dispersed in water. The flexibility of our method allows the combination of a wide range of materials into complex structures, which we envisage will boost the realization of new systems for a broad range of fields, including microrobotics, micromanipulation and metamaterials.