Abstract
FP-9120 positive photoresist films 1.8 μm thick implanted with boron and phosphorus ions deposited onto the surface of KDB-10 single-crystal (111) silicon wafers by centrifugation are investigated by their conductivity and electron spin resonance measurements. It is shown that the Р+ ion implantation leads to the formation of a layer with an electronic conductivity of about 10−9 Ω−1 cm−1. At a phosphorous implantation dose of 6 × 1015 cm−2, the electron spin resonance spectrum contains a narrow isotropic line with a g factor of 2.00654 and a width of 3.83 G, which is most likely related to the formation of phenoxy radicals. As the implantation dose increases to 1.2 × 1016 cm−2, a line with a g factor of 2.00264 and a width of 3.96 G is detected in the electron spin resonance spectrum, which is caused by unpaired electrons delocalized according to the π-polyconjugated system.
Highlights
Polymers are widely used to protect discrete and integrated electronic devices against external factors and have, as a rule, good insulating properties, which ensure electric charge accumulation in the polymer exposed to electromagnetic and penetrating radiation
FP-9120 positive photoresist films 1.8 μm thick implanted with boron and phosphorus ions deposited onto the surface of KDB-10 single-crystal (111) silicon wafers by centrifugation are investigated by their conductivity and electron spin resonance measurements
At a phosphorous implantation dose of 6 × 1015 cm−2, the electron spin resonance spectrum contains a narrow isotropic line with a g factor of 2.00654 and a width of 3.83 G, which is most likely related to the formation of phenoxy radicals
Summary
Polymers are widely used to protect discrete and integrated electronic devices against external factors and have, as a rule, good insulating properties, which ensure electric charge accumulation in the polymer exposed to electromagnetic and penetrating radiation. Electronic Conductivity in a Р+-Ion Implanted Positive Photoresist D. Brinkevicha aBelarus State University, Minsk, 220030 Belarus *e-mail: Oleshkevich@bsu.by **e-mail: Odzaev@bsu.by
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