Catalysis is essential to modern life and has a huge economic impact. The development of
new catalysts critically depends on synthetic methods that enable the preparation of tailored …

Driven by functionality and purity demand for applications of inorganic nanoparticle colloids
in optics, biology, and energy, their surface chemistry has become a topic of intensive …

Although oxide nanoparticles are ubiquitous in science and technology, a multitude of
compositions, phases, structures, and doping levels exist, each one requiring a variety of …

Laser ablation in liquid-phase (LAL) has been developed since the 1990s, but the interest in
laser synthesis of colloids has emerged in the last decade due to a significant improvement …

Utilizing a novel laser system consisting of a 500 W, 10 MHz, 3 ps laser source which is fully
synchronized with a polygon scanner reaching scanning speeds up to 500 m/s, we explore …

The synthesis of chemically clean and environmentally friendly nanoparticles through
pulsed laser ablation in liquids has shown a number of advantages over conventional …

Conspectus The vast majority of the outstanding applications of metal nanoparticles (NPs)
developed during the last two decades have arisen from their unique optical properties …

Pulsed laser ablation in liquid (PLAL) is a physical and top-down approach used to fabricate
nanoparticles (NPs). Herein, the research methods and current trends in PLAL literature are …

The generation of colloidal solutions of chemically clean nanoparticles through pulsed laser
ablation in liquids (PLAL) has evolved into a thriving research field that impacts industrial …

The synthesis of catalysis-relevant nanoparticles such as platinum and gold is demonstrated
with productivities of 4 gh− 1 for pulsed laser ablation in liquids (PLAL). The major drawback …