Due to the advantages of non‐contact processing, high efficiency, high precision, and
superior controllability, laser lift‐off (LLO) technologies exhibit excellent material applicability …

Modern life and global communication would not be possible without technologically
tailored thin films; they are omnipresent in daily life applications. In most cases, the films are …

An ultra-short laser pulse irradiated surface passes through a sequence of physical
processes that occur over a wide temporal range, from femtoseconds to microseconds. In …

Nanoparticles are already implemented as functional elements on surfaces and into volume,
but also in hybrid nanostructures. Each application requires specific features regarding size …

Ultrashort pulsed lasers offer a high potential in precise and efficient material processing
and deep understanding of the fundamental laser-material interaction aspects is of great …

To understand the dynamics of ultrashort-pulse laser ablation, the interpretation of ultrafast
time-resolved optical experiments is of utmost importance. To this end, spatiotemporally …

In recent years, several applications for the laser ablation of thin metal films from the glass
substrate side have been studied. In this case, the laser pulse transmits through the glass …

The low‐energy layer edge states (LESs) from quasi 2D hybrid perovskite single crystals
have shown great potential because of their nontrivial photoelectrical properties. However …

Laser-induced forward transfer (LIFT) is a 3D direct-write method suitable for precision
printing of various materials, including pure metals. To understand the ejection mechanism …

Recently, a so-called “directly induced” laser ablation effect has been reported, where an
ultra-short laser pulse (660 fs and 1053 nm) irradiates a thin Mo film through a glass …