3D Printing of Freestanding Overhanging Structures Utilizing an In Situ Light Guide

Abstract

Conventional 3D printing methods require supporting material as a sacrificial layer to form a stable structure and to obtain the desired final product. The use of the supporting material causes several problems, such as damage to the surface of materials during the removal process. This results in considerable waste of materials, energy, and time. This paper proposes a new 3D printing method to create a freestanding overhanging structure that does not require supporting material. The printed hydrogel structure can guide and transmit light by utilizing an in situ light guide within the hydrogel, similar to an optical fiber. The results show that the curved angle at which the structure can grow at a constant rate can be controlled from 0 degrees to approximate to 60 degrees. In addition, hierarchical, branched, and helical structures can be easily created because the growth direction of the structure is freely adjustable. In future, by applying the proposed 3D printing method to a variety of functional material designs, the aim is to provide opportunities for various practical applications such as soft actuators, tissue engineering, and sensors.