Co-occurrence of photochemical and thermal effects during laser polymer ablation via a 248-nm excimer laser

Y. Feng; Z. Q. Liu; X. S. Yi

doi:10.1016/S0169-4332(99)00506-1

Co-occurrence of photochemical and thermal effects during laser polymer ablation via a 248-nm excimer laser

Y. Feng, Z. Q. Liu, X. S. Yi

Research output: Journal Publication › Article › peer-review

46 Citations (Scopus)

Abstract

Polypropylene (PP) was ablated using a 248-nm KrF excimer laser with a fluence in the range of 0.4-2 J/cm² and at a repetition rate of 10 Hz. It has been found that both photochemical and thermal effects are co-operative during laser ablation process, evidenced by the existence of thermal affected zone (TAZ), together with ablative zone (AZ) and unaffected zone (UAZ) in the ablated crater. Increment of both fluence and the number of pulses leads to a more striking thermal effect, demonstrated by the spatial expansion of rim for PP. Relative importance of photochemical and thermal effects was theoretically discussed.

Original language	English
Pages (from-to)	177-182
Number of pages	6
Journal	Applied Surface Science
Volume	156
Issue number	1
DOIs	https://doi.org/10.1016/S0169-4332(99)00506-1
Publication status	Published - 2 Feb 2000
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
Condensed Matter Physics
General Physics and Astronomy
Surfaces and Interfaces
Surfaces, Coatings and Films

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10.1016/S0169-4332(99)00506-1

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title = "Co-occurrence of photochemical and thermal effects during laser polymer ablation via a 248-nm excimer laser",

abstract = "Polypropylene (PP) was ablated using a 248-nm KrF excimer laser with a fluence in the range of 0.4-2 J/cm2 and at a repetition rate of 10 Hz. It has been found that both photochemical and thermal effects are co-operative during laser ablation process, evidenced by the existence of thermal affected zone (TAZ), together with ablative zone (AZ) and unaffected zone (UAZ) in the ablated crater. Increment of both fluence and the number of pulses leads to a more striking thermal effect, demonstrated by the spatial expansion of rim for PP. Relative importance of photochemical and thermal effects was theoretically discussed.",

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note = "Funding Information: The authors acknowledge the financial support from the National Doctoral Research Foundation of the State Education Commission of China. ",

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AU - Feng, Y.

AU - Liu, Z. Q.

AU - Yi, X. S.

N1 - Funding Information: The authors acknowledge the financial support from the National Doctoral Research Foundation of the State Education Commission of China.

PY - 2000/2/2

Y1 - 2000/2/2

N2 - Polypropylene (PP) was ablated using a 248-nm KrF excimer laser with a fluence in the range of 0.4-2 J/cm2 and at a repetition rate of 10 Hz. It has been found that both photochemical and thermal effects are co-operative during laser ablation process, evidenced by the existence of thermal affected zone (TAZ), together with ablative zone (AZ) and unaffected zone (UAZ) in the ablated crater. Increment of both fluence and the number of pulses leads to a more striking thermal effect, demonstrated by the spatial expansion of rim for PP. Relative importance of photochemical and thermal effects was theoretically discussed.

AB - Polypropylene (PP) was ablated using a 248-nm KrF excimer laser with a fluence in the range of 0.4-2 J/cm2 and at a repetition rate of 10 Hz. It has been found that both photochemical and thermal effects are co-operative during laser ablation process, evidenced by the existence of thermal affected zone (TAZ), together with ablative zone (AZ) and unaffected zone (UAZ) in the ablated crater. Increment of both fluence and the number of pulses leads to a more striking thermal effect, demonstrated by the spatial expansion of rim for PP. Relative importance of photochemical and thermal effects was theoretically discussed.

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Co-occurrence of photochemical and thermal effects during laser polymer ablation via a 248-nm excimer laser

Abstract

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