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Polimerlar Kimyosi va Fizikasi insitituti

Oʻzbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti
Toshkent shahar, Abdulla Qodiriy ko'chasi 7-b uy telefon: (+998 71)241-85-94 faks:(+998 71)241-26-60 e-mail: polymer@academy.uz

Polimerlar kimyosi va fizikasining nazariy asoslari laboratoriyasi

Biz haqimizda


IBiz haqimizda

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.

Laboratoriyalar



Laboratoriya haqida


Polimerlar

Polimerlar kimyosi va fizikasining nazariy asoslari laboratoriyasi


Institut faoliyatining ustuvor fundamental yo‘nalishlaridan biri bo‘lgan polimerlar fizikasida olimlarning ilmiy izlanishlari alohida xususiyatlarga ega bo‘lgan elektr o‘tkazuvchan polimerlarning sintezi va xossalarining bir qator nazariy tamoyillarini o‘rganish va o‘rnatishga hamda ularni kompyuterda modellashtirishga qaratildi. polimerlar xossalarining molekulyar parametrlarga bog'liqligi. Asosiy ilmiy ishlar miqdoriy tuzilma-xususiyat munosabatlari, polimer nanostrukturalari va nanokompozitlar sohasining sinergetik yondashuvlar bilan o‘rganilayotgan dolzarb muammolariga tegishli bo‘lib, shu munosabat bilan 1996 yilda Polimerlar kimyosi va fizikasining nazariy asoslari laboratoriyasi tashkil etildi. Polimer tizimlari va nanopolimerlari xususiyatlarining fundamental modellarini nazariy shakllantirish. Polimer tizimlarning kompyuter modellarini qurish va ularning namoyon bo‘ladigan xususiyatlari bilan o‘zaro aloqasi.

Ilmiy ishlar (5 yiilik): 1. Nurgaliev I.N., Burkhanova N.J., Rashidova S.Sh. Computer modelling of chitosan derivatives. Dodo Books Indian Ocean Ltd. And OmniScriptum S.R.L. publishing group. 2023, 125 p. 2. Atakhanov A., Turdikulov I., Mamadiyorov B., Abdullaeva N., Nurgaliev I., Yunusov Kh., Rashidova S. Isolation of Nanocellulose from Cotton Cellulose and Computer Modeling of Its Structure. Open Journal of Polymer Chemistry, 2019, 9, 117-129 DOI: 10.4236/ojpchem.2019.94010 3. Sarimsakov A.A., Nurgaliev I. N., Kholturaev B. Z. Features In Creating Polymer Forms Of Drugs. International journal of scientific & technology research. 2020, 8, 01, 1012-1018 4. Sarymsakov А.А., Kholturaev B., Yunusov Kh.E., Oksengendler B.L., Nurgaliev I.N., Letfullin R.R. The Role of Electron Structure of Polymers at Their Biodegradation in Living Organisms. Drug Design Development and Delivery Journal. 2020, 3, 1, 1-6. DOI: 10.31021/dddd.20203110 5. Nurmatova M.M., Nurgaliev I.N., Rashidova S.Sh. Study of the complex-forming ability of polygalacturonic acid with tin ions. Academicia An International Multidisciplinary Research Journal. 2021, 11, 2, 232. DOI: 10.5958/2249-7137.2021.00524.3 6. Nurgaliev, I.N. DFT Study of Chitosan Ascorbate Nanoparticles Structure. Bulletin of the University of Karganda – Chemistry, 2022, 107(3), 218-226. https://doi.org/10.31489/2022Ch3/3-22-3 7. Avazova O.B., Milushevа R.Yu., Nurgaliev I.N., Rashidova S.Sh. Polymolecular Complexes of Chitosan with the Bombyx Mori Protein. Bulletin of the University of Karganda – Chemistry, 2022, 107(3), 87-101. https://doi.org/10.31489/2022Ch3/3-22-22 8. Toshmamatov D.A., Nurgaliev I.N., Oblakulov A.O., Maksimov S.E., Ashurov N.R. Development of Software for the Analysis of the Current–Voltage Characteristics of Perovskite Solar Cells based on One- and Two-Diode Models. Applied Solar Energy, 2022, 58, 5, 615–621. https://doi.org/10.3103/S0003701X22600552 9. Burkhanova N.J., Nurgaliev I.N., Rakhmanova V.N., Rashidova, S.S. Computer simulation of sulfated chitosan derivatives // International Journal of Computational Materials Science and Engineering, 2023, 12, 01, 2250014. https://doi.org/10.1142/S2047684122500142 10. Vokhidova N.R., Khudoyberdiyev Sh.Sh., Nurgaliev I.N., Rashidova S.Sh. On obtaining binary polyelectrolyte complexes of chitosan bombyx mori with collagen. Progress on Chemistry and Application of Chitin and its Derivatives, 2023, XXVIII, 188-203 https://doi.org/10.15259/PCACD.28.017 11. Нургалиев И.Н., Марасулов М.Б., Ашуров Н.Р. Исследование влияния замещения катиона на структуру галогенидных перовскитов на основе теории функционала плотности и молекулярной динамики ЖСХ, т.65, №3, 2024, 123450 12. Pirniyazov K.K., Nurgaliev I.N., Rashidova S.Sh. Reaction of the formation of chitosan nanoascorbate Bombyx mori and computer simulation of its structure. AIP Conference Proceedings AIP Conference Proceedings, 2023, 2931, 1, id.060002, 9. DOI: 10.1063/5.0182628 13. Nurgaliev I.N., Marasulov M.B., Ashurov, N.R. The Role of Specific Interactions in the Formation of Perovskite Structures. Appl. Sol. Energy. 2023, 59, 612–620. https://doi.org/10.3103/S0003701X23601746 14. Pirniyazov K., Nurgaliev I., Rashidova S. Synthesis of Chitosan Nanoascorbate Bombyx Mori. NATURALISTA CAMPANO. 2024, 28, 1. ISSN:1827-7160 70. Nurgaliev I.N., Marasulov M.B., Ashurov N.R. Density Functional Theory and Molecular Dynamics Study of the Cation Substitution Effect on the Structure of Halide Perovskites. J. Struct. Chem. 2024, 65, 451–463 (). https://doi.org/10.1134/S002247662403003X

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