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 …

Soft robots are, due to their softness, inherently safe and adapt well to unstructured
environments. However, they are prone to various damage types. Self‐healing polymers …

Deep learning has been transforming our ability to execute advanced inference tasks using
computers. Here we introduce a physical mechanism to perform machine learning by …

With the advent of femtosecond lasers in the early 1990s, ultrafast laser processing has
proven to be an imperative tool for micro/nano machining. Two-photon lithography (TPL) is …

Multiphoton lithography (MPL) is a powerful and useful structuring tool capable of
generating 2D and 3D arbitrary micro‐and nanometer features of various materials with high …

The introduction of additive manufacturing (AM), often referred to as three-dimensional (3D)
printing, has initiated what some believe to be a manufacturing revolution, and has …

Tissue engineering (TE) is a highly interdisciplinary research field driven by the goal to
restore, replace, or regenerate defective tissues. Throughout more than two decades of …

Two-photon polymerization (2PP) leverages the two-photon absorption (TPA) of near-
infrared (NIR) radiation for additive manufacturing with sub-diffraction limit resolution within …

Optical machine learning offers advantages in terms of power efficiency, scalability, and
computation speed. Recently, an optical machine learning method based on diffractive deep …

Deep learning has been revolutionizing information processing in many fields of science
and engineering owing to the massively growing amounts of data and the advances in deep …