On-Demand Activation of Photochromic Nanoheaters for High Color Purity 3D Printing

TL;DR

This paper introduces photochromic tungsten oxide nanoparticles as on-demand, high-purity color activators for 3D printing, enabling high-fidelity multicolored objects without discolouration issues.

Contribution

It presents a novel use of switchable, photochromic nanoparticles as efficient, reversible photothermal sensitizers for powder sintering in 3D printing.

Findings

Fast activation times of WO3 nanoparticles

High heating-to-colour-change ratio surpassing existing sensitizers

Color fidelity maintained with mixed coloured inks

Abstract

The creation of white and multicoloured 3D-printed objects with high colour fidelity via powder sintering processes is currently limited by discolouration from thermal sensitizers used in the printing process. Here we circumvent this problem by using switchable, photochromic tungsten oxide nanoparticles, which are colourless even at high concentrations. Upon ultraviolet illumination, the tungsten oxide nanoparticles can be reversibly activated making them highly absorbing in the infrared. Their strong infrared absorption upon activation renders them efficient photothermal sensitizers that can act as fusing agents for polymer powders in sintering-based 3D printing. The WO3 nanoparticles show fast activation times, and when mixed with polyamide powders they exhibit a heating-to-colour-change ratio greatly exceeding other sensitizers in the literature. Upon mixing with coloured inks, powders containing WO3 display identical colouration to a pristine powder. This demonstrates the potential of WO3, and photochromic nanoparticles in general as a new class of material for advanced manufacturing.