Nano-scale effects on Young's modulus of nanoimprint polymers measured by photoacoustic metrology

Nano-scale effects on Young's modulus of nanoimprint polymers measured by photoacoustic metrology

The ultrashort laser pulse photoacoustic method has been used to characterise the physical properties of spin-coated PMMA layers onto Si wafers with thicknesses from 586 to 13 nm, . Acoustic speeds of polymer films were derived from the measured time of flight of acoustic waves in polymers and from...

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Veröffentlicht in:Journal of physics. Conference series 2010-03, Vol.214 (1), p.012049
Hauptverfasser: Kehoe, T, Bryner, J, Reboud, V, Dual, J, Torres, C M Sotomayor
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic properties
Acoustic waves
Acoustics
Elastic properties
Modulus of elasticity
Physical properties
Physics
Polymer films
Polymers
Polymethyl methacrylate
Primers (coatings)
Silicon substrates
Spin coating
Thickness
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Zusammenfassung:The ultrashort laser pulse photoacoustic method has been used to characterise the physical properties of spin-coated PMMA layers onto Si wafers with thicknesses from 586 to 13 nm, . Acoustic speeds of polymer films were derived from the measured time of flight of acoustic waves in polymers and from their calculated visco-elastic properties. A 12% increase, in comparison to the PMMA bulk value, of the acoustic speeds was measured for polymer films with thicknesses below 80 nm, which corresponds to an increase in Young's modulus of 26%. In addition, we found that adding a hexamethyldisilazane primer monolayer between the polymer film and the Si substrate lessen the increase in Young's modulus, suggesting that the nanoscale changes are due to interface effects.
ISSN:1742-6596
1742-6588
1742-6596
DOI:10.1088/1742-6596/214/1/012049