An international research team led by Prof. Dr Eva Blasco, a scientist at the Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) of Heidelberg University, has made successful use of the raw materials extracted from microalgae to manufacture inks for printing complex biocompatible 3D microstructures for the first time, according to a study published in Advanced Materials
In an article published in Giant, researchers introduced dynamic boronic ester bonds into liquid crystal elastomers (LCEs), making them reprogrammable. The study explores the effects of printing parameters and boronic bond content on the actuation and reprogramming of LCEs.
CHARM3D paves the way for the efficient printing of free-standing 3D structures that offer high electrical conductivity, self-healing capabilities and recyclability -- a boon for electronics in healthcare, communications and security
Engineers have invented a new way to remove health-harming ‘forever chemicals’ from water – using 3D printing.
In a study that was published in Nature Electronics, the research team headed by Associate Professor Benjamin Tee from the NUS College of Design and Engineering’s Department of Materials Science and Engineering used Field’s metal to show how CHARM3D can fabricate a variety of electronics, enabling more compact designs in gadgets like electromagnetic metamaterials, wearable sensors, and wireless communication systems.
Dr. Jaeyeon Pyo's team at the Korea Electrotechnology Research Institute has revealed light emission patterns from 3D-printed nanowires, expecting technological innovation in ultra-high resolution displays, published as a cover article in ACS Nano.
In a study published in Polymers, an international team of researchers placed gold nanorods in hydrogels that can be 3D printed to build structures that constrict when exposed to light and then expand when the light is withdrawn.
UpNano GmbH (Vienna, Austria) has co-developed a novel manufacturing process for 3D-printed fused quartz objects.
By utilizing Two-Photon Polymerization (2PP) 3D printing and flexible printed circuit boards (FPCB), researchers at Carnegie Mellon University have developed small-scale, lightweight and flexible microsystems with electrostatic microactuators.
Printing a new cornea during an operation to restore a patient's eyesight: This groundbreaking step in the fight against corneal disorders is set to become reality with a laser based process using personalized bioink.
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