Laser Coatings
A section of Coatings (ISSN 2079-6412).
Section Information
Laser-assisted techniques have been proven to be helpful in producing and modifying coatings, films, surfaces, and interfaces. The specific and selective features of the laser radiation, combined with the uttermost optomechanical, optoelectronics, and photonics advances, have great potential to address the current scientific challenges in surface engineering. The Section “Laser Coatings” aims to cover the fundamental and applied aspects related to coatings production and surface modification by laser radiation to improve properties such as wettability, hydrophobicity, bioactivity, biocompatibility, antifouling, antimicrobial capability, catalytic activity, roughness, corrosion resistance, adhesion, adsorption, bonding ability, wear, friction, hardness, fracture toughness, fatigue behavior, residual stress, conductivity, emissivity, absorption, topography, reflectivity, and other related properties.
A non-exhaustive list of topics suitable for this Section includes:
- Laser-assisted processes at nano-, micro-, and macro-scales;
- Short and ultrashort pulsed laser treatments of polymers, ceramics, metals, and composites for general surface applications;
- Laser-assisted processes for surface modification in biomaterials and medical devices (e.g., laser surface functionalization, degradability modification, bioactive coatings, biocompatibility enhancement, cell alignment, antibacterial functionalization, and laser surface modification of hard and soft tissues);
- Fabrication of Metallic Micro-/Nano-Composite Materials for Environmental Applications;
- Laser-assisted or chemical synthesis of catalytic nanoparticles, the surface science of nanomaterials, and surface effects at nanoscale and applications;
- Laser-assisted production of thin films (e.g., pulsed laser deposition, laser thin-film deposition);
- Laser-assisted production of thick films (e.g., laser cladding, laser surface alloying);
- Surface engineering by laser technology (e.g., laser ablation, laser annealing, laser blasting, laser etching, laser electroplating, laser hardening, laser polishing, laser shock peening);
- Laser surface structuring and related techniques (e.g., laser texturing, hierarchical structuring, laser-induced periodic surface structuring, interference patterning, laser micromachining);
- Mathematical modeling, theoretical analysis, thermomechanical models, and simulation in laser surface treatments.
Keywords
- Laser surface functionalization
- Laser texturing
- Biomaterial surface modification
- Laser ablation
- Surface engineering
- Ultrashort laser pulse processing
- Laser cladding
- Pulsed laser deposition
- Tribology
- Selective laser melting
- Laser assisted biomimetic process
- Laser assisted micro- and nano-structuring of surfaces
- Photocatalysis/piezocatalysis/piezo-photocatalysis
- Separation and purification
Editorial Board
Topical Advisory Panel
Special Issues
Following special issues within this section are currently open for submissions:
- Laser Surface Treatment Technology—New Perspectives (Deadline: 30 November 2024)
- Application of Laser Processing Technology in Automobile Manufacturing (Deadline: 30 December 2024)
- Manufacture, Properties, and Applications of Metal-Based Composite Coatings (Deadline: 20 January 2025)
- Laser-Assisted Processes and Thermal Treatments of Materials (Deadline: 31 January 2025)
- Laser-Assisted Coating Techniques and Surface Modifications (Deadline: 20 February 2025)
- Advances and Challenges in Pulsed Laser Deposition for Complex Material Applications (Deadline: 28 February 2025)
- Advances of Hard Material Processing Technologies for Surface and Interface Improvement (Deadline: 10 March 2025)
- Laser Surface Engineering and Additive Manufacturing (Deadline: 20 March 2025)
- Laser Surface Engineering: Technologies and Applications (Deadline: 25 March 2025)
- Surface Modification of Materials by Laser Processing (Deadline: 30 April 2025)
- Laser Additive Manufacturing: Materials, Technologies, and Applications (Deadline: 20 June 2025)
- Advancements in Lasers: Applications and Future Trends (Deadline: 10 July 2025)
- Optical Coatings for Laser Applications (Deadline: 31 July 2025)
- Laser Technology of Thin Film and Coatings (Deadline: 31 August 2025)
- Research in Laser Welding and Surface Treatment Technology (Deadline: 31 August 2025)
Topical Collection
Following topical collection within this section is currently open for submissions:
