Abstract
The nature of stable radicals in FP9120 positive photoresist films implanted with boron and phosphorus ions and deposited on the surface of single-crystal silicon wafers has been determined using the EPR technique. At an implantation fluence of 6 × 1015 cm−2, a narrow singlet isotropic line with a g-factor of 2.0064 is observed in the EPR spectrum. As the fluence increased to 1.2 × 1016 cm−2, the g-factor decreased to values close to the g-factor of the free electron. The concentration of paramagnetic centers was higher during implantation of phosphorus ions than in the samples implanted with boron ions. This difference is due to a smaller contribution of nuclear stopping during B+ implantation, which does not exceed 10–15% of electronic stopping. The formation of long-lived paramagnetic centers recorded by EPR a week after implantation of positive phenol–formaldehyde photoresist is due to the presence of a powerful system of conjugated >C=O and –C=C– multiple bonds in the structure of the radicals.
Highlights
One of the most promising methods for controlling the electrophysical, strength, and biological properties of the surface layers of polymers is ion implantation [1, 2]
EPR Spectroscopy of Diazoquinone–Novolac Resist Films Implanted with P+ and B+ Ions
The nature of stable radicals in FP9120 positive photoresist films implanted with boron and phosphorus ions and deposited on the surface of single-crystal silicon wafers has been determined using the EPR technique
Summary
One of the most promising methods for controlling the electrophysical, strength, and biological properties of the surface layers of polymers is ion implantation [1, 2]. EPR Spectroscopy of Diazoquinone–Novolac Resist Films Implanted with P+ and B+ Ions Abstract—The nature of stable radicals in FP9120 positive photoresist films implanted with boron and phosphorus ions and deposited on the surface of single-crystal silicon wafers has been determined using the EPR technique.
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