Review of laser nanomachining

Abstract: Lasers are widely used for macro- and micromachining applications in numerous industries such as automotive, electronics, and medical manufacturing. However, there are many challenges encountered in the utilization of lasers for nanomachining. The most critical requirement is that the diffraction limit of laser light must be overcome. With recent developments in laser technology in terms of short-wavelength and ultrashort pulse width, there is a wealth of opportunities to beat the diffraction limit for nanomac… Show more

“…We believe that any degree of spatial organisation of neuronal growth processes would benefit neuro-interface technologies. Since laser ablation techniques have been reported to achieve submicron resolutions [51], we would predict that our technique could be used to pattern individual neuritic processes and single cell somata in the near future.…”

Spatially Controlling Neuronal Adhesion and Inflammatory Reactions on Implantable Diamond

“…We believe that any degree of spatial organisation of neuronal growth processes would benefit neuro-interface technologies. Since laser ablation techniques have been reported to achieve submicron resolutions [51], we would predict that our technique could be used to pattern individual neuritic processes and single cell somata in the near future.…”

Spatially Controlling Neuronal Adhesion and Inflammatory Reactions on Implantable Diamond

“…When a dense array of protrusions in the mould press into the resist thin film, because it is viscous, the excess polymer can migrate to the outer edges of the mould, forming different resist thickness in some areas or holes in unprinted areas [94]. Several recent reviews on nanoimprinting are available [95][96][97][98].…”

Sculpting Nanometric Patterns: The Top‐down Approach

“…Therefore, in order to generate features smaller than the optical wavelength several advanced laser direct-write techniques based on either optical nonlinear absorption or nearfield effects have been developed. 2,3 Nanopatterning through multiphoton polymerization 4,5 has been shown to be an efficient way to generate complex nanostructures. An ultrafast laser is tightly focused to a tiny voxel (volumetric pixel) where the nonlinear absorption takes place with a sharp threshold in the focus of a high numerical aperture objective.…”

Multiphoton polymerization using optical trap assisted nanopatterning