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Proton Radiation Studies on Conjugated Polymer Thin Films

Published online by Cambridge University Press:  30 May 2017

Harold O. Lee III ,
Muhammed Hasib  and
Sam-Shajing Sun
Harold O. Lee III
Affiliation:
Center for Materials Research, Ph.D. Program in Materials Science and Engineering, Norfolk State University, Norfolk, VA 23504, USA
Muhammed Hasib
Affiliation:
Center for Materials Research, Ph.D. Program in Materials Science and Engineering, Norfolk State University, Norfolk, VA 23504, USA
Sam-Shajing Sun*
Affiliation:
Center for Materials Research, Ph.D. Program in Materials Science and Engineering, Norfolk State University, Norfolk, VA 23504, USA Department of Chemistry, Norfolk State University, Norfolk, VA 23504, USA
*
*(Email: ssun@nsu.edu)
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Abstract

Polymeric thin film based electronic and optoelectronic materials and devices are attractive for potential space and certain radiation related applications due to their inherent features such as being light weight, flexible, biocompatible and environmental friendly, etc. Proton radiation is a major form of ionizing radiation in space, yet very few literature and data are available on proton radiation effects on conjugated polymer systems. In this study, UV-Vis absorption spectra of several conjugated polymers and/or their composite thin films were measured and compared right before and after a 200 MeV proton beam irradiation at different dosages, and the results revealed that proton radiation has very little or negligible impact up to 800 Rads on the optoelectronic properties of several polymers and their composite thin films.

Keywords

absorptionradiation effectspolymer
Type
Articles
Information
MRS Advances , Volume 2 , Issue 51: Electronic Devices and Materials , 2017 , pp. 2967 - 2972
Copyright
Copyright © Materials Research Society 2017 

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References

REFERENCES

Holmes-Siedle, A., Adams, L., Handbook of radiation effects, 1 st Ed., Oxford University Press, United Kingdom, 1993) Ch. 1Google Scholar
Kouhestani, C., Devine, R. a. B., Kambour, K., Nguyen, D., SPIE paper # 9616–11 (2015).Google Scholar
Ahn, H., Oblas, D.W., and Whitten, J.E., Macromolecules 37, 3381 (2004).Google Scholar
Kambour, K., Rosen, N., Kouhestani, C., Nguyen, D., Mayberry, C., Devine, R. a B., Kumar, a., Chen, C.C., Li, G., and Yang, Y., IEEE Trans. Nucl. Sci. 59, 2902 (2012).Google Scholar
Kim, M. S., Han, J. H., Lee, C. E., Curr. Appl. Phys. 15(1), 2528 (2015).Google Scholar
Lee, K.W., Mo, K.H., Jang, J.W., Lee, C.E., Korean Phys, J.. Soc. 47(1), 130132 (2005).Google Scholar
Hassler, D.M., Zeitlin, C., Wimmer-schweingruber, R.F., Ehresmann, B., Rafkin, S., Eigenbrode, J.L., Brinza, D.E., Weigle, G., Bӧttcher, S., Bӧhm, E., Burmeister, S., Guo, J., Kӧhler, J., Martin, C., Reitz, G., Cucinotta, F.A., Kim, M., Grinspoon, D., Bullock, M.A., Posner, A., Gomez-elvira, J., Vasavada, A., Grotzinger, J.P., and Team, M.S.L.S., 343, 1 (2014).Google Scholar
Kouhestani, C., Nguyen, D. D., Kambour, K. E., Devine, R. a. B., Chen, J.,Li, G., Yang, Y., J. Vac. Sci. Technol. B Nanotechnol. Microelectron. 33(3), 032403 (2015).Google Scholar
Zeitlin, C., Hassler, D. M., Cucinotta, F. A., Ehresmann, B., Wimmer-Schweingruber, R. F., Brinza, D. E., Kang, S., Weigle, G., Bӧttcher, S., Bӧhm, E., Burmeister, S., Guo, J., Kӧhler, J., Martin, C., Posner, A., Rafkin, S., Reitz, G., Science 340(6136), 10801084 (2013)Google Scholar
Sun, S., Brook, J., Nguyen, T., Zhang, C., Poly, J.. Sci. Poly. Chem. 52, 11491160 (2014)Google Scholar
Nguyen, T., Hasib, M., Wang, D., Sun, S., Res, J.. Up. Poly. Sci. 5, 1838 (2016)Google Scholar
Tessa, C., Sivertz, M., Chiang, I., Lowenstein, D., Rusek, A., Life Sci. Space Res. 11, 18–13 (2016).CrossRefGoogle Scholar