Optical Property of Contained Fullerene Polymers

Perenlei Tuvshintur; E.M. Shpilevsky; S.A. Filatov; A.D. Zamkovets; Shilagardi Goolimensee; Munkhtsetseg Sambuu; Duger Ulam-Orgikh; Dolsuren Tumurbaatar

doi:10.4028/www.scientific.net/SSP.323.42

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HomeSolid State PhenomenaSolid State Phenomena Vol. 323Optical Property of Contained Fullerene Polymers

Optical Property of Contained Fullerene Polymers

Abstract:

The presented study in the field of optical area is about receiving polymer new materials in the way of doping a small amount of fullerene С_60.Under the method of preparing samples it is revealed characteristics of an interaction between polymer components and doping materials. Significant absorption of ultraviolet radiation by studied samples at the certain concentration of the doping material is presented in the result of the optical study. It is shown that metal-fullerene nanostructures which are on the polymer surface call surface resonance of plasmon absorption.

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Solid State Phenomena (Volume 323)

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42-47

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.323.42

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Online since:

August 2021

Authors:

Perenlei Tuvshintur, E.M. Shpilevsky, S.A. Filatov, A.D. Zamkovets, Shilagardi Goolimensee, Munkhtsetseg Sambuu*, Duger Ulam-Orgikh, Dolsuren Tumurbaatar

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Fullerene, Plasmon Resonance, Polymer

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References

[1] Wang C, Guo Z.-X., Fu S., Wu W., Zhu D. Polymers containing fullerene or carbon nanotube structures. Progr. Polym. Sci. 29 (2004) 1079-1141.

DOI: 10.1016/j.progpolymsci.2004.08.001

Google Scholar

[2] Badamshina E, Gafurova M., Figovsky O., Shapovalov H. Fullerene-containing polyurethanes: review. J. Scientific Israel-Technological Advantages. 8 (2006) 149-159.

Google Scholar

[3] G.P. Carpacheva Fullerene containing polymers. Highmol. Compound. C. 42 (2000) 1974-1999.

Google Scholar

[4] Shpilevsky E.M., Penyazkov O.G., Filatov S.A., Shilagardi G., Tuvshintur P., Timur-Bator D., Ulam-Orgikh D. Modification of materials by carbon nanoparticles. Solid State Phenomena. Switzerland, 271 (2018) 70-75.

DOI: 10.4028/www.scientific.net/ssp.271.70

Google Scholar

[5] Shpilevsky E.M., Shilagardi G., Akhremkova G. S., Mechanical and tribological property of high pressure polyethylene modified by fullerenes. Fullerenes and fullerene like structures. Heat and Mass Transfer Institute of NAS of Belarus, Minsk, Belarus. (2005) 218-228.

Google Scholar

[6] Dynich R.A. Ponyavina A.N. Extraordinary transmission of thin metal films doped with densely-packed dielectric nanospheres. Physics, Chemistry and Applications of Nanostructures. (2013) 102-104.

DOI: 10.1142/9789814460187_0024

Google Scholar

[7] Dynich R.A., Zamkovets A.D., Ponyavina A.N., Shpilevsky E.М. Dependence of a surface plasmon resonance band on concentration of copper nanoparticles in transpаrent and carbon-bearing matrices. International Journal of Nanoscience. 18 (2019) 1940029-(1-4).

DOI: 10.1142/s0219581x19400295

Google Scholar

[8] Makarova T.L. Elektricheskiye i opticheskiye svoystva monomernykh i polimerizovannykh fullerenov T.L. Makarova. FTP. 2001. Т. 35, Volume. 3. С. 257-293.

Google Scholar

[9] Dihor, I.T. Optical properties of fullerite C60 nanostrucres in water. I.T. Dihor . Moldavian Journal of the Physical Sciences. 2005. Vol. 4, № 2. Pp. 240-244.

Google Scholar

[10] Biryulin YU.F. Opticheskiye svoystva fullerensoderzhashchikh svobodnykh plenok polidimetilfenilenosksida. YU.F. Biryulin [i dr.]. FTP. 2003. Т. 37, Volume 1. С. 110-113.

Google Scholar