Applied Surface Science, Vol.253, No.15, 6409-6415, 2007
Polymer ablation: From fundamentals of polymer design to laser plasma thruster
UV-Laser ablation of polymers is a well-established method to structure and deposit polymers, but the mechanisms of ablation are still controversial, i.e. photothermal or photochemical processes. An approach to probe the ablation mechanisms and to improve ablation is to incorporate photoactive groups into the polymer structure. The investigation of the ablation behavior of designed triazene polymers showed that the ablation mechanism is always a combination of both photothermal and photochemical processes, but the ratio can be changed by using different polymers and irradiation wavelengths. Also the quality of structures in the triazene polymers is superior at an irradiation wavelength of 308 nm compared to commercially available polymers. Polymers can be designed not only for UV irradiation, but also for applications in the IR range, but with different requirements. One application for designed polymers in the near-IR range is as fuel for the laser plasma thruster, which is used as propulsion system for small satellites. With commercially available polymers the necessary thrust could not be achieved. A. specially designed polymer-absorber system for this application produce more energy in the form of thrust, than the laser delivered. (C) 2007 Elsevier B.V. All rights reserved.
Keywords:laser ablation of polymers;designed polymers;triazene polymers;energetic polymers;laser plasma thruster;infrared;ultraviolet