Laser Ablation (LA) is a process in which a laser beam is focused on a sample surface to remove material from the irradiated zone. Laser ablation has been considered and used for many technical applications including: the production of nano materials, deposition of thin metallic and dielectric films, fabrication of superconducting materials, routine welding and bonding of metal parts and micromachining of MEMS structures. Recently laser ablation has gained popularity as a manufacturing process for solar cell (c-Si) edge isolation.
Laser ablation is a dynamic technology platform for performing chemical analysis. The LA generates a bright plasma on the sample’s surface. The light emitted from this plasma can be analysed to determine the presence and concentration levels of elements in the periodic table – a technology known as LIBS. LA also creates a flux of fine particulates that can be readily transported to a secondary source for ICP-MS analysis (LA-ICP- MS).
Laser Ablation based analytical techniques such as LIBS and LA-ICP- MS offer the ability to perform rapid chemical analysis directly from solid samples without the tedious and complex sample preparation involving toxic acid solutions. Thus, environmental-friendly or ‘green’ chemical analysis has become a reality through LIBS and Laser Ablation.
Laser Ablation involves complex, non-linear physical/chemical mechanisms that span several orders of magnitude in time. Some of these mechanisms include:
- Opto-Electronic absorption of laser energy (10 -15 sec) by the sample surface
- Energy transfer from the initially excited electrons to acoustic phonons (10 -12 sec)
- Thermal heating of the sample surface and subsequent mass vaporisation (10 -10 sec – 10 -19 sec)
- High temperature plasma initiation above the sample surface
- Expansion of the dense plasma and propagation of shockwaves (external & internal) into the ambient environment
- Plasma cooling and condensation of nano-sized particles and their clusters formation
- Phase explosion and large particulates ejection (>10 -6 sec)
- Solid flakes exfoliation
Laser parameters (energy, wavelength, pulse duration), sample physical/chemical properties as well as ambient gas will influence the various mechanisms outlined above; they often govern optical/physical properties of the generated plasma, the primary and secondary mechanisms responsible for mass removal and the particle size distribution of the ablated mass. Consequently, a proper selection of appropriate laser parameters based on the sound understanding of laser ablation fundamentals is a critical prerequisite for achieving accurate and precise analytical measurements using LIBS and LA-ICP- MS.
The scientific staff at Applied Spectra Inc. has over eighty year’s combined research and experience with Laser Ablation fundamentals and analytical techniques. At Datech Scientific Limited, we welcome the possibility of providing technical consulting opportunities through this knowledge base.
Contact us to learn how we can simplify your chemical analysis and solve research and manufacturing challenges using laser ablation.