A rapidly expanding area of research in materials science involves the development of
routes to complex 3D structures with feature sizes in the mesoscopic range (that is, between …

Mechanical properties of materials have long been one of the most fundamental and studied
areas of materials science for a myriad of applications. Recently, mechanical metamaterials …

Abstract 3D printing is a powerful emerging technology for the tailored fabrication of
advanced functional materials. This Review summarizes the state‐of‐the art with regard to …

Chemical and physical processes driven by multiphoton absorption make possible the
fabrication of complex, 3D structures with feature sizes as small as 100 nm. Since its …

Fluorescence technology is fully entrenched in all aspects of biological research. To a
significant extent, future advances in biology and medicine depend on the advances in the …

Multiphoton microfabrication enables the production of three‐dimensional microstructures
with sub‐100 nm resolution via direct laser writing using a femtosecond, pulsed laser beam …

A laser direct-writing technique employing multiphoton absorption processes has become a
powerful and widely used tool in the fabrication of micro-/nanometer-scale structures in the …

We developed techniques for fabricating three-dimensional metallic microstructures using
two-photon-induced metal-ion reduction. In this process, ions in a metal-ion aqueous …

3D conductive microstructures containing gold are fabricated by simultaneous
photopolymerization and photoreduction via direct laser writing. The photoresist employed …

The past decade has seen growing research interest in develo** novel fabrication
methodologies for metallic micro/nanostructures toward the rational design and integration …