Optical Spectra of Composite Materials Based on Molybdenum-
Containing Nanoparticles and High-Pressure Polyethylene

A. S. Fionov; Фионов А. С.; V. V. Kolesov; Колесов В. В.; V. A. Fionova; Фионова В. А.; N. A. Taratanov; Таратанов Н. А.; E. V. Golovanov; Голованов Е. В.; E. B. Dzhangurazov; Джангуразов Э. Б.; B. Z. Beshtoev; Бештоев Б. З.; A. S. Voronov; Воронов А. С.; G. Yu. Yurkov; Юрков Г. Ю.

doi:10.31857/S0207401X2311002X

Optical Spectra of Composite Materials Based on Molybdenum- Containing Nanoparticles and High-Pressure Polyethylene

Авторлар: Fionov A.S.¹, Kolesov V.V.¹, Fionova V.A.², Taratanov N.A.³, Golovanov E.V.¹, Dzhangurazov E.B.⁴, Beshtoev B.Z.⁴, Voronov A.S.⁵, Yurkov G.Y.⁴
Мекемелер:
1. Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences
2. Bauman Moscow State Technical University
3. Ivanovo Fire and Rescue Academy of the State Fire Service of the Ministry of Emergency Situations of Russia
4. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences
5. State Scientific Center of the Russian Federation Troitsk Institute of Innovation and Thermonuclear Research
Шығарылым: Том 42, № 11 (2023)
Беттер: 79-88
Бөлім: Chemical physics of polymeric materials
URL: https://cijournal.ru/0207-401X/article/view/675027
DOI: https://doi.org/10.31857/S0207401X2311002X
EDN: https://elibrary.ru/YXPKNP
ID: 675027

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Аннотация
Авторлар туралы
Әдебиет тізімі
Қосымша файлдар
Статистика

Аннотация

Molybdenum-containing composite nanomaterials are synthesized by the thermal decomposition
of molybdenum hexacarbonyl in a solution-melt of polyethylene in mineral oil. The concentration of a metalcontaining
filler in the composite materials varied from 1 to 20 wt %. A technique for preparing film samples
for spectroscopic studies is developed, and the samples obtained are studied by UVI, IR, and Raman spectroscopy.
It is found that additional absorption bands appear in the IR range, whose intensity depends on the
concentration of molybdenum-containing nanoparticles in the composite materials. The spectral characteristics
of Raman scattering show that all samples are characterized by the stretching of the C–C bond. In the
visible light region, the spectrum of nanocomposites has a flat edge of its own absorption located in the region
of wave numbers (18–31) × 103 cm–1.

Негізгі сөздер

nanocomposite, polyethylene, molybdenum, nanoparticles, functional material, optical spectra, FTIR spectra, Raman spectra

Әдебиет тізімі

Васильев А.А., Дзидзигури Э.Л., Ефимов М.Н. и др. // Хим. физика. 2021. Т. 40. № 6. С. 18.
Андреев Д.Е., Вдовин Ю.С., Юхвид В.И. и др. // Хим. физика. 2020. Т. 39. № 3. С. 24.
Луканина Ю.К., Колесникова Н.Н., Попов А.А. и др. // Хим. физика. 2019. Т. 38. № 4. С. 69.
Герасимов Г.Н., Громов В.Ф., Иким М.И. и др. // Хим. физика. 2019. Т. 38. № 10. С. 41.
Жуков А.М., Солодилов В.И., Третьяков И.В. и др. // Хим. физика. 2022. Т. 41. № 9. С. 64.
Rogge S.M., Bavykina A., Hajek J. et al. // Chem. Soc. Rev. 2017. V. 46. № 11. P. 3134.
Sensors: Proceedings of the Fourth National Conference on Sensors, 2018, Italy; https://doi.org/10.1007/978-3-030-04324-7
Zhang W., Mou Z., Wang Y. et al. // Mater. Sci. and Eng., C. 2019. V. 97. P. 486.
Govindasamy M., Rajaji U., Chen S.M. et al. // Anal. Chim. Acta. 2018. V. 1030. P. 52.
Adamska K., Okal J., Tylus W. // Applied Catalysis B: Environmental. 2019. V. 246. P. 180.
Boufaden N., Pawelec B., Fierro J.L.G. et al. // Mater. Chem. Phys. 2018. V. 209. P. 188.
Rabalais J.W., Colton R.J., Guzman A.M. // Chemical Physics Letters. 1974. V. 29. P. 131.
Yao J., Hashimoto K., Fujishima A. // Nature. 1992. V. 355. P. 624.
Yang Y.A., Cao Y.W., Loo B.H., Yao J.N. // J. Phys. Chem. B. 1998. V. 102. № 47. P. 9392.
Jalalian M., Farzaneh F., Foruzin L.J. // J. Cluster. Sci. 2015. V. 26. № 3. P. 703.
Rathnasamy R., Thangamuthu R., Alagan V. // Res. Chem. Intermed. 2018. V. 44. P. 1647.
Xu Y., Xie L., Zhang Y. et al. // Electron. Mater. Lett. 2013. V. 9. P. 693.
Buzanovskii V.A. // Ref. J. Chem. 2018. V. 8. № 3. P. 243.
Kim W.S., Kim H.C., Hong S.H. // J. Nanopart. Res. 2010. V. 12. P. 1889.
Ferroni M., Guidi V., Martinelli G. et al. // Sens. Actuators, B. Chemical. 1998. V. 48. № 1. P. 285.
Ferguson I.F., Ainscough J.B., Morse D., Miller A.W. // Nature. 1964. V. 202. № 4939. P. 1327.
Таратанов Н.А., Юрков Г.Ю., Фионов А.С. и др. // РЭ. 2009. Т. 54. № 8. С. 986.
Фионов А.С., Юрков Г.Ю., Потапов А.А. и др. // Нелинейный мир. 2008. Т. 6. № 1. С. 37.
Юрков Г.Ю., Devlin E., Панчук В.В. и др. // ФТТ. 2013. Т. 55. № 9. С. 1830.
Таратанов Н.А., Козинкин А.В., Юрков Г.Ю. и др. // Перспективные матер. 2009. № 5. С. 55.
Yurkov G.Yu., Pankratov D.A., Koksharov Yu.A. et al. // Ceram. Intern. 2022. V. 48. № 24. P. 37410.