Title :
Solar Absorber Surfaces Treated by Femtosecond Laser
Author :
Vorobyev, Anatoliy Y. ; Guo, Chunlei
Author_Institution :
Inst. of Opt., Univ. of Rochester, Rochester, NY, USA
Abstract :
Using a femtosecond laser surface structuring technique, we produce technologically important solar absorbers (black aluminum, titanium, tungsten, copper, and stainless steel) with absorptance of about 85-95% over a broad wavelength range from ultraviolet to infrared. Scanning electron microscopy shows that the enhanced absorption of the black metals is caused by a rich variety of nano- and microscale surface structures. The black metals produced in this study may find applications in solar energy absorbers, photovoltaic thermal collectors, and heat transfer devices. The suggested technique is environmentally friendly.
Keywords :
laser materials processing; solar absorber-convertors; surface structure; absorptance; black metals; enhanced absorption; femtosecond laser surface structuring; microscale surface structures; nanoscale surface structures; reflectance; scanning electron microscopy; solar absorber surfaces; solar energy absorbers; wavelength range; Aluminum; Copper; Electromagnetic wave absorption; Scanning electron microscopy; Steel; Surface emitting lasers; Surface treatment; Surface waves; Titanium; Tungsten; femtosecond laser; reflectance; solar absorbers; surface structures;
Conference_Titel :
Biosciences (BIOSCIENCESWORLD), 2010 International Conference on
Conference_Location :
Cancun
Print_ISBN :
978-1-4244-5929-2
DOI :
10.1109/BioSciencesWorld.2010.24
