Ultrafibre biopolymer materials based on polylactide and ozonide
UDC: 541.77+547.458.61
DOI: -
Authors:
KOCHETKOVA VIKTORIA A.
1,
SAFIEVA RAVILYA Z.1,
OLKHOV ANATOLY A.2,
STANISHEVSKY YAROSLAV M.3
1 National University of Oil and Gas “Gubkin University”, Moscow, Russian Federation
2 Institute of Biochemical Physics of the Russian Academy of Sciences, Moscow, Russian Federation
3 The Patrice Lumumba Peoples’ Friendship University of Russia, Moscow, Russian Federation
Keywords: ultrafibrous biopolymer materials, electrospinning, solution, polylactide, oleic acid triglyceride ozonide, fiber size
Annotation:
The article discusses composite nonwoven materials created based on ultra-fibrous fibers of polylactide and oleic acid ozonide, which were formed using electroforming. The change in the structure and thickness of fibers in these materials demonstrates a nonlinear dependence on the concentration of ozonide. As a result of modifying polylactide with oleic acid triglyceride ozonide, new nonwoven composites have emerged. Electroformed from a polymer solution, the modified materials exhibit improved morphological characteristics compared to the unmodified counterparts. Analysis of the obtained data shows that optimal introduction of oleic acid triglyceride ozonide contributes to reducing the diameter of polymer fibers.
Bibliography:
1. Ol’hov A.A. Geterogennye matrichno-fibrillyarnye materialy na osnove poligidroksibutirata: struktura, funkcii, primenenie: diss. na soisk. uch. step. d-ra tekhn. nauk IHF imeni N.N. Semenova RAN. – M., 2023. – DOI: 10.30826/POLYMERS-2022-05
2. Biodegradaciya ul’travoloknistyh materialov na osnove smesej poligidroksibutirata i polilaktida / A.A. Ol’hov, R.Yu. Kosenko, V.S. Markin [i dr.] // Perspektivnye materialy. – 2021. – № 2. – S. 17–31. – DOI: 10.30791/1028-978X-2021-2-17-31
3. Pat. 2714079 C1 Ros. Federaciya, MPK B01J 20/26, B01J 20/30. Biodegradiruemyj sorbiruyushchij material dlya sbora nefti i nefteproduktov i sposob ego polucheniya / A.A. Ol’hov, A.L. Iordanskij, N.A. Samojlov [i dr.]; zayavitel’ FIC HF RAN. – № 2019109658; zayavl. 02.04.2019; opubl. 11.02.2020.
4. Kochetkova V.A. Ekologicheskie aspekty primeneniya biopolimerov na osnove polilaktida // VI Vserossijskaya molodezhnaya nauchnaya konferenciya “Aktual’nye problemy nefti i gaza”. – M.: IPNG RAN, 2023. – 44 s.
5. Martynov V.G., Bessel’ V.V., Lopatin A.S. Ob uglerodnoj nejtral’nosti Rossii // Trudy Rossijskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gubkina. – 2022. – № 1 (306). – S. 5–20. – DOI: 10.33285/2073-9028-2022-1(306)-5-20
6. Kochetkova V.A., Ol’hov A.A., Safieva R.Z. Elektroformovanie biorazlagaemyh ul’travoloknistyh materialov na osnove polilaktida i ozonida // Aktual’nye voprosy sovremennogo materialovedeniya: materialy X Mezhdunarodnoj molodezhnoj nauchno-prakticheskoj konferencii, Ufa, 29 iyunya 2023 g. / otv. redaktor A.A. Muhamedzyanova. – Ufa: FBGOU VO “Ufimskij universitet nauki i tekhnologij”, 2023. – S. 102–104.
7. Vliyanie modificirovannyh nenasyshchennyh zhirnyh kislot na morfologicheskie osobennosti netkanyh materialov na osnove polimolochnoj kisloty / O.V. Alekseeva, M.L. Konstantinova, A.A. Ol’hov [i dr.] // Novye tekhnologii vysshej shkoly. Nauka, tekhnika, pedagogika: materialy Vserossijskoj nauchno-prakticheskoj konferencii, Moskva, 26 marta 2021 g. – M.: Moskovskij politekh, 2021. – S. 99–105.
8. Encapsulation of antifouling organic biocides in poly (lactic acid) nanoparticles / A. Kamtsikakis [et al.] // Bioengineering. – 2017. – T. 4, № 4. – 81 р. – DOI: 10.3390/bioengineering4040081
9. Magadova L.A., Muhin M.M., Merkur’eva A.G. Razrabotka reagentov kompleksnogo dejstviya na osnove vozobnovlyaemogo syr’ya v celyah uluchsheniya tekhnologicheskih svojstv burovyh rastvorov // Trudy Rossijskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gubkina. – 2022. – № 4 (309). – S. 140–158. – DOI: 10.33285/2073-9028-2022-4(309)-140-158
10. Gosudarstvennaya farmakopeya Rossijskoj Federacii (GF RF). – URL: https://femb.ru/record/pharmacopea14 (data obrashcheniya: 29.01.2024).
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