Reprint
Laser-Generated Periodic Nanostructures
Edited by
October 2021
340 pages
- ISBN978-3-0365-2027-8 (Hardback)
- ISBN978-3-0365-2028-5 (PDF)
This book is a reprint of the Special Issue Laser-Generated Periodic Nanostructures that was published in
Chemistry & Materials Science
Engineering
Summary
This book is the printed edition of the Special Issue Published in Nanomaterials. The book provides an overview on current international research activities in the field of laser-generated periodic surface micro- and nanostructures. It covers fundamental and applied aspects and collects contributions of renowned scientists in the fields of laser processing, materials science, physics, chemistry, and engineering in order to foster the current knowledge and present new ideas for future applications and new technologies.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
laser-induced oxide layer; laser-induced periodic surface structures; LIPSS; surface chemistry; nanostructuring; femtosecond laser processing; femtosecond laser; multiscale-patterning; wettability; human mesenchymal stem cell; cell adhesion; cell spreading; cell motility; protein adsorption; Direct Laser Interference Patterning; Laser-induced Periodic Surface Structures; polycarbonate; hierarchical structures; surface functionalization; nanostructuring; femtosecond laser; laser-induced periodic surface structures; thin gold layer; transmission; wettability; silanization; functional surface properties; femtosecond laser; laser ablation; nanostructure formation; surface plasmon polaritons; near-field; silicon suboxide; glass; periodic nanostructures; molecular dynamics; two-temperature model; laser material processing; ultrashort laser pulses; laser ablation; laser interference ablation; LIPSS; LSFL; laser thermochemical recording; titanium films; laser-induced oxidation; niobium; surface superconductivity; laser-induced periodic surface structures (LIPSS); femtosecond n-IR laser; multilayer thin film; ultrafast laser processing; laser-induced periodic surface structure; cell response; femtosecond laser; laser-induced periodic surface structures; LIPSS; LSFL; glass micro-structuring; direct laser interference patterning; laser-induced periodic surface structures; multi-photon absorption; wettability; diffraction gratings; multi-scale textures; aluminum; direct laser interference patterning; superhydrophobicity; icephobicity; interference laser processing; laser-induced dot transfer; laser-induced forward transfer; nanodot; nanoparticle; array; femtosecond laser; solid–liquid–solid mechanism; Pt; vacuum-arc evaporation; titanium; iron; LIPSS; multilayer structures; direct laser interference patterning; periodic microstructure; sulphur content; nanosecond pulse; surface tension gradient; Marangoni convection; smoothed particle hydrodynamics; fs-laser; micromachining; wetting; hydrophobicity; LIPSS; ultrafast laser nanostructuring; self-organization; nanobumps; femtosecond laser; LIPSS; nanopatterns; polymer thin films; femtosecond beam; laser texturing; LSFL; 2D LIPSS; substrate temperature effect; scanning processing; ultrafast laser nanostructuring; femtosecond laser; oxidation; sputtering; laser-induced periodic surface structures; high-spatial-frequency LIPSS; vacuum; Marangoni flow; thin film metallic glasses; femtosecond laser; LIPSS; surface functionalization; nanostructuring; laser-induced periodic surface structures; polymer nanostructures; ordered nanostructures; linear gratings; nanodots arrays; semiconductor polymer; ferroelectric polymer; laser induced periodic surface structure (LIPSS); mid-IR; femtosecond laser; surface structuring; nano-structure; ultrafast melting; laser induced damage; ATG instability; surface engineering; n/a