Kimyo, fizika va polimer texnologiyasi muammolari, shu jumladan nanofan sohasi bilan shug'ullanadigan yagona ixtisoslashtirilgan ilmiy markaz. Tashkil etilgan yili – 1979-yilda OʻzSSR FA Polimerlar kimyosi boʻlimi ilmiy-tadqiqot instituti huquqi bilan tashkil etilgan (OʻzSSR Fanlar akademiyasi 1979-yil 23-fevraldagi 27-son qarori va Kengash qarori). O'zSSR vazirligining 1979 yil 11 iyuldagi 479-son). O‘zbekiston Respublikasi Vazirlar Kengashining 1981-yil 7-iyuldagi 543-sonli qaroriga muvofiq O‘zbekiston Respublikasi Fanlar akademiyasi Polimerlar kimyosi va fizikasi institutiga aylantirildi.
Fizik fizik-kimyoviy tadqiqot usullari laboratoriyasi
Ilmiy yo'nalishlar: Tabiiy va sintetik polimerlar asosida nanopolimer tuzilmalar tarkibi, tuzilishi va fizik kimyoviy xossalarini o‘rganish Yangi nanokompozitsion materiallar yaratishning nazariy asoslari, tarkibi, tuzilishi va xossalarini tadqiq qilish Nanotuzilishli polimerlar, sintetik polimerlar asosida nanopolimer aralashmalar va tabiiy polimerlar asosida bioparchalanuvchan kompozitsion materiallar olish va “sintez-tuzilishi-xossasi” orasidagi bog‘liqlikni o‘rganish.
Loyihalar: FZ-4721055613 «Юқори молекуляр тизимлар асосида нанотолалар ҳосил бўлишининг асосий жиҳатлари: шароитлари, тузилиши, хусусиятлари» ФЗ-4721055613 «Основные аспекты формирования нановолокон на основе высокомолекулярных систем: условия, структура, свойства» А-ФА-2021-388 «Микрокристаллик целлюлоза ишлаб чиқариш технологиясини яратиш» А-ФА-2021-388 «Создание технологии производства микрокристаллической целлюлозы» AL-742210856 Галл кислотаси ёрдамида биоцид хоссаларига эга кумуш наносуспензияларини олишнинг технологик регламентни ишлаб чициш АЛ-742210856 Разработка технологического регламента получения наносуспензий серебра с биоцидными свойствами с использованием галловой кислоты/ Ishlanmalar: - Intelektual mulk agentligi tomonidan ixtiro uchun (IAP 06364 “Nanotsellyuloza olish usuli”) patent olingan. - Bioparchalanuvchi polimer kompaund va plyonkalar ishlab chiqarishni yo‘lga qo‘yish uchun talab qilinadigan meyoriy-texnik hujjatlar to‘plami shakllantirilgan (“Bioparchalanuvchi polimer kompaund” (Ts 21889093-01:2019) va “Bioparchalanuvchi polimer plyonka” (Ts 25261285-08:2019) uchun texnik shartlar) va “Uzstandart” agentligi tomonidan ro‘yxatdan o‘tkazilgan - Intelektual mulk agentligiga ixtiro uchun patentga (IAP20210772 “Bioparchalanuvchi kompozitsiya va uning asosida plyonkalar”) talabnoma taqdim qilingan. - Innovatsion rivojlanish vazirligi Yoshlar akademiyasi tomonidan o‘tkazilgan “Bo‘lajak olim” tanlovida I.H.Turdiqulov raxbarligidagi “Ekologik xavfsiz polimer plyonka va qadoqlovchi materiallar olish uchun bioparchalanuvchi kompaundlar ishlab chiqarish korxonasini yaratish” START UP loyihasi g‘olib deb topilgan va ushbu loyiha 735 million so‘m mablag‘ bilan moliyalashtirilib innovatsion korxona tashkil qilingan.
Maqolalar: 2019y 1. M.T. Kulakhmetova, A.A. Atakhanov. Obtaining cellulose-based silver nanocomposites. // European Journal of Research №4, P. 65-70 (2019). Impact Factor – SJIF 6.054; IFS 3.8; UIF 2.7. 2. Shodmonkulov Zokhir Abdurakhimovich, Atakhanov Abdumutolib Abdupattaevich, Gulamov Azamat Eshonkulovich, Shin Illarion Georgievich. Abrasive Blasting of the Teeth of Linter Saws with the Aim of their Activation // International Journal of Advanced Research in Science, Engineering and Technology Vol. 6, Issue 8, p.10558-10563, 2019. (GIF) IF – 3.98 3. Abdumutolib Atakhanov, Islom Turdikulov, Burhon Mamadiyorov, Nodira Abdullaeva, Ilnar Nurgaliev, Sayora Rashidova. Isolation of nanocellulose from cotton cellulose and computer modeling of its structure // Open Journal of Polymer Chemistry, 2019, 9, 117-129. https://doi.org/10.4236/ojpchem.2019.94010. IF:2.591 4. Vokhidova N.R., Ergashev K.H., Yugay S.M., Rashidova S.Sh. NANOSTRUCTURES OBTAINING THE ON THE BASIS OF BOMBYXMOR ICHITOSAN HYDROXYAPATITE. American Journal of Polymer Science 2019, 9 (1): c.1-9 IF – 0,776 5. N.R.Ashurov, N.Sh.Ashurov, J.T.Azimov, S.E.Maksimov, S.Sh.Rashidova. Investigation of possible ways of improvement of layers’ morphology of solar light absorbers of perovskite-based cells. //Applied Solar Energy. 2019. V.55. №1. P.8-11. DOI: 10.3103/S0003701X19010031 Impact Factor – RGJIF 0.26. 6. А.А. Атаханов, Б.Н. Мамадиёров, М.М. Кузиева, С.М. Югай, С. Шахобутдинов, Н.Ш. Ашуров, М. Абдуразаков. Сравнительные исследования физико-химических свойств и структуры хлопковой целлюлозы и ее модифицированных форм // Ж. «Химия растительного сырья», Барнаул, Россия, 2019, №3, с.5-13. (РИНЦ) IF – 0,5. 2020 y 1. E. Khakberdiev, N. Ashurov, Sh. Sadikov., N.Sh. Ashurov. Stress – Strain Behavior Polymer Blends of Poly(Vinyl Chloride) And Linear Copolymer of Ethylene With Butene – 1. International Journal of Scientific & Technology Research Volume 9, Issue 03, March 2020, pp. 617-621 Global Impact Factor – 0.787 ISSN 2277-8616, Scopus 2. A. A. Atakhanov, N.Sh. Ashurov., A. A. Kholmuminov, B. N. Mamadierov, I. Kh. Turdikulov. Rheological Behavior of Nanocellulose Aqueous Suspensions. Journal Polymer Science, Series A, 2020, Vol. 62, No. 3, pp. 213–217. Impact Factor- 0.968 Scopus, Web of Science. DOI: 10.1134/S0965545X20030013 3. Кудышкин В.О., Бозоров Н.И., Ашуров Н.Ш., Рашидова С.Ш. Синтез и структура привитых сополимеров акриловой кислоты и низкомолекулярного полиэтилена. Журнал прикладной химии. 2020. Т. 93. Вып. 10, стр. 1426-1431 Impact Factor- 0.69 Scopus. DOI: 10.31857/S0044461820100035 2021y 1. Yunusov, K.E., Sarymsakov, A.A., Jalilov, J.Z.O., Аtakhanov, A.A. Physicochemical properties and antimicrobial activity of nanocomposite films based on carboxymethylcellulose and silver nanoparticles // Journal Polymers for Advanced Technologies, 2021, 32(4), стр. 1822–1830. https://onlinelibrary.wiley.com/doi/epdf/10.1002/pat.5223 Scopus - 5.5 IF 2. V. O. Kudyshkin, N. I. Bozorov, N. Sh. Ashurov, N. R. Ashurov, and S. Sh. Rashidova On the Application of Modified Low Molecular Weight Polyethylene in Compositions with Starch // Russian Journal of Applied Chemistry, 2021, Vol. 94, No. 7, pp. 920–926. DOI: 10.1134/S1070427221070119 Scopus - 1.5 IF 2022 y 1. N. Sh. Ashurov, S. M. Yugai, S. Sh. Shakhobutdinov, A. S. Kulumbetov, A. A. Atakhanov Physicochemical studies of the structure of chitosan and chitosan ascorbate nanoparticles // Russian Chemical Bulletin volume 71, pages 227–231 (2022) https://doi.org/10.1007/s11172-022-3401-x Scopus-2,3 IF 2. F.Kh. Khasanov, I.B. Sapaev, B.S. Mirzaev, Q.A. Shakarov, U.T.Davlatov, N.N.Abdusattorov Si-CdTe-CdS Structures of electronic processes //AIP Conference Proceedings 2432, 050017-1-050017-5; https://doi.org//10.1063//5.0089974 Scopus 3. I.B. Sapaev., B. Sapaev., A. Abduraxmonov., N.N. Abdusattorov. To study the electrophysical properties of cdte layer on silicon base and the effect of created heterostructure on moisture // International Scientific Research Journal ISSN: 2776-0979, Volume 3, Issue 5, May., 2022 Scopus 4. V.O. Kudyshkin, N.I. Bozorov, R.Kh. Madiev, N.R. Ashurov, N. Sh. Ashurov, S.Sh. Rashidova. Use of a Graft Copolymer of Low Molecular Weight Polyethylene and Acrylic Acid in Carbon Black-Filled Polyethylene Compouns. Russian Journal of Applied Chemistry Volume 95, pages 655–660 (2022), DOI: 10.1134/S1070427222050044 Scopus -1.6 IF 5. Voronova M.I., Surov O.V., Kuziyeva M.K., Atakhanov A.A. Thermal and mechanical properties of polymer composites reinforced by sulfuric acid-hydrolyzed and tempo-oxidized nanocellulose: a comparative study // ChemChemTech, 2022, 65(10), pp. 95–105; https://doi.org/10.6060/ivkkt.20226510.6596 Scopus-0,8 IF 6. А.А.Атаханов, И.Х.Турдикулов, Н.Ш.Ашуров. Оксоразлагаемая нанокомпозитная пленка на основе полиэтилена. Журнал прикладной химии. 2022. Т. 95. Вып. 8, с. 38-45. Scopus -1,6 IF 7. Yunusov K.E., Sarymsakov A.A., Shukurov A.L., Todjiyev J.N., Atakhanov A.A., Guohua J., Solomevich S.O. Sodium-Carboxymethyicellulose/ Polyphenol- Gossypol- Carboxymethyicellulose Copolymer Films for Ocular Drug Delivery: Preparation and Physico-Chemical Properties. Asian Jurnal of Chemistey; Vol. 34, № 12 (2022), 3085-3092. https://doi.org/10.14233/ajchem.2022.23912 Scopus-0,9 IF 8. Н.Ш.Ашуров, М.Абдуразаков, С.М.Югай, А.А.Атаханов, Х.А.Гуламжанов, Г.Д.Тураев, Г.Д.Ахымбетова, С.Ш.Рашидова. Изучение структурных и термических характеристик хитина и хитозана из различного вида сырья. Journal of Physics Conference Series JPCS, 2388 (2022) 012011 doi:10.1088/1742-6596/2388/1/012011, Scopus – 0.9 IF 9. Н.Ш.Ашуров, С.М.Югай, Н.Р.Вахидова, .А.Атаханов, С.Ш.Рашидова. Изучение магнитных свойств металлсодержащих полимеров. Journal of Physics Conference Series JPCS 2388 (2022) 012007 doi:10.1088/1742-6596/2388/1/012007 Scopus – 0.9 IF 10. I. Turdikulov, M. Абдуразаков , M. Saidmuhammedova, N. Ashurov, A. Atakhanov, S. Rashidova. Functionalization of low-molecular-weight polyethylene by melt grafting of maleic anhydride for using as compatibilizer. Journal of Chemistry and Chemical Technology. Scopus – 0.9 IF (Статья в печати) 11. Абдуразаков M, Normurodov N.F., Berdinazarov Q.N., Ashurov N.R. Mechanical and thermal properties of biodegradable composites based on polyethylene and gelatin. Bulletin of the Karaganda University Chemistry Series: 2022 № 4. https://doi.org/10.31489/2022Ch4/4-22-11 Scopus – 0.1 IF 2023 y 1. Trdikulov I. H., Saidmuhammedova M. Q., Ashurov N. Sh., Abdurazzakov M.N., Atakhanov A.A., Rashidova S.Sh., // Functionalization of low-molecular-weight Polyethylene by melt grafting of maleic anhydride For using as a compatibilizerchemistry & chemical technology Chem. Chem. Technol, 2023, V 17, 347–356. http://science2016.lp.edu.ua/chcht/muhitdin-abdurazakov-abdumutolib-atakhanov-sayyora-rashidova-functionalization-low-molecular 2. . V.O. Kudyshkin, N.I. Bozorov, N.Sh. Ashurov, N.R. Ashurov and Rashidova S. Sh., Structure and properties of compositions of linear low‐density polyethylene with starch // Polymers for Advanced Technologies, 2023, V 34, 1752-1756. https://doi.org/10.1002/pat.6008 3. Kuzieva M.A., Atakhanov A.A., Shakhobutdinov S.Sh., Ashurov N.Sh., Yunusov H.E., Guohua J., Preparation of oxidized nanocellulose by using potassium dichromate // Cellulose, 2023, V 30, 5657–5668. https://doi.org/10.1007/s10570-023-05222-8 4. Saidmuhammedova M. Q., Trdikulov I. H., Atakhanov A.A., Ashurov N. Sh., Rashidova S.Sh., Abdurazakov M.N., Oleg V.S., // Biodegradable polyethylene-based composites filled with cellulose micro- and nanoparticles Eurasian Journal of Chemistry, 2023, №110(2), 94-106. ǀhttps://doi.org/10.31489/2959-0663/2-23-16 5. Vokhidova N. R., Mamasoliyev U. M., Yugay S. M., Rashidova S. Sh., Synthesis and study of the structure of N-succinyl chitosan Bombyx mori and their biological applications. Polymer Bulletin, 2023, V 80, 12907-12921. https://doi.org/10.1007/s00289-023-04680-1 6. Turdikulov I. H., Saidmuhammedova M. Q., Atakhanov A. A. Study of structure and properties of biodegradable composite films based on thermoplastic starch. E3S Web of Conferences, 2023, V 401, 03058. https://doi.org/10.1051/e3sconf/202340103058 2024 y 1. A.A. Atakhanov, N.Sh. Ashurov, Zh. Turaev, M. Abdurazakov, N.R. Ashurov, S.Sh. Rashidova and A.A. Berlin Formation of Nanofibers Based on Polyacrylonitrile with Graphite and Their Structural Characteristics // Polymer Science, Series C, 2024, https://doi.org/10.1134/S1811238224600022 2. V.O. Kudyshkin, Z.M. Abrarova, N.I. Bozorov, U.U. Zhumartova, M.M. Usmanova, N.Sh. Ashurov and S.Sh. Rashidova Features of Synthesis of Graft Copolymers of Chitosan and Acrylic Acid // Polymer Science, Series B, 2024. https://doi.org/10.1134/S1560090424600165 3. Shakhabutdinov S.Sh., Yugay S.M., Ashurov N.Sh., Ergashev D.J., Atakhanov A.A., Rashidova S.Sh. Characterization electrospun nanofibers based on cellulose triacetate synthesized from licorice root cellulose // Eurasian Journal of Chemistry. https://doi.org/10.31489/2959-0663/2-24-2