The rapid development of additive manufacturing has fueled a revolution in various research
fields and industrial applications. Among the myriad of advanced 3D printing techniques …

In recent years, there has been rising interest in additively manufactured shape memory
polymers (SMPs) and their multi-functional composites. Four-dimensional (4D) printing is an …

Glass is increasingly desired as a material for manufacturing complex microscopic
geometries, from the micro-optics in compact consumer products to microfluidic systems for …

Light-based vat-polymerization bioprinting enables computer-aided patterning of 3D cell-
laden structures in a point-by-point, layer-by-layer or volumetric manner, using vat (vats) …

The rapid development of 3D printing has led to considerable progress in the field of
biomedical engineering. Notably, 4D printing provides a potential strategy to achieve a time …

Abstract Two‐Photon Lithography, thanks to its very high sub‐diffraction resolution, has
become the lithographic technique par excellence in applications requiring small feature …

The goal of 3D printing is to realize complex 3D structures by locally adding material in small
volume elements called voxels—in contrast to successively subtracting material by etching …

Two-photon polymerization (TPP) is a cutting-edge micro/nanoscale three-dimensional (3D)
printing technology based on the principle of two-photon absorption. TPP surpasses the …

Ultrafast laser 3D lithography based on non-linear light–matter interactions, widely known as
multi-photon lithography (MPL), offers unrivaled precision rapid prototyping and flexible …

Two-photon lithography (TPL) is a versatile technology for additive manufacturing of 2D and
3D micro/nanostructures with sub-wavelength resolved features. Recent advancement in …