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 …

The field of 3D micro‐optics is rapidly expanding, and essential advances in femtosecond
laser direct‐write 3D multi‐photon lithography (MPL, also known as two‐photon or multi …

Nanoscale surface texturing, drilling, cutting, and spatial sculpturing, which are essential for
applications, including thin-film solar cells, photonic chips, antireflection, wettability, and …

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

Since the pioneering work of Kawata and colleagues in 1997, multi‐photon 3D laser
printing, also known as direct laser writing, has made significant advancements in a wide …

Cantilevers in microelectromechanical systems have the advantages of non-labeling, real-
time detection, positioning, and specificity. Rectangular solid, rectangular hollow, and …

This perspective is an overview of a recent direction in optical 3D printing, where
polymerization of crosslinkable materials and nanomaterial fillers can be guided to the final …

Ultrasensitive nanomechanical instruments, eg atomic force microscopy (AFM), can be used
to perform delicate biomechanical measurements and reveal the complex mechanical …

The importance of 3D direct laser writing as an enabling technology increased rapidly in
recent years. Complex micro‐optics and optical devices with various functionalities are now …

Three-dimensional (3D) direct laser writing is a powerful technology to create nano-and
microscopic optical devices. While the design freedom of this technology offers the …