STUDYING THE PRODUCTION OF NANOCELLULOSES

Egamberdiev Elmurod Abduqodirovich; Turabjanov Sadritdin Maxamatdinovich; Rashidov  Shokhzodbek  Abduvahobovich

Nanoscience is a broad field that includes nanophysics and nanochemistry.
Nanotechnologies are aimed at obtaining nanoparticles with new properties and creating materials
and devices based on them. This is one of the modern trends in the development of science in the 21st
century.
Based on the study of information about nano-sized materials, the mechanisms of their
production and changes in their properties, we will consider the technology for producing
nanocellulose from organic substances, i.e. from cellulose. The article describes a technology that
examines devices for producing nanocellulose and the principles of their operation, as well as a
combined method of purification and acid hydrolysis with high-pressure homogenization for the
production of nanocellulose on an industrial scale. The types of nanocellulose and their microscopic
images are also described. Our research work is aimed at obtaining nano-sized cellulose. Cellulose
is one of the most common natural polymers that is part of an important part of the tissues of annual
and perennial plants, algae, bacteria and fungi. Using this raw material, it is proposed to obtain
nanocellulose, since cellulose is a linear homopolysaccharide, a macromolecule consisting of
monomeric anhydride-β-D-glucopyranose units linearly linked to each other by 1→4-glucosidic
bonds.

Название журналаTechnical science and innovation
Номер выпуска2024 №2
Количество просмотров 54

Ссылка в интернете

DOI

Дата создание в систему UzSCI 14-08-2024

Количество прочтений 54

Дата публикации 14-08-2024

Язык статьиIngliz

Страницы5-9

Ключевые слова

crystallization

nanocellulose

polymerization

microfibrillated cellulose

nanocrystalline cellulose

bacterial nanocellulose

English

Nanoscience is a broad field that includes nanophysics and nanochemistry.
Nanotechnologies are aimed at obtaining nanoparticles with new properties and creating materials
and devices based on them. This is one of the modern trends in the development of science in the 21st
century.
Based on the study of information about nano-sized materials, the mechanisms of their
production and changes in their properties, we will consider the technology for producing
nanocellulose from organic substances, i.e. from cellulose. The article describes a technology that
examines devices for producing nanocellulose and the principles of their operation, as well as a
combined method of purification and acid hydrolysis with high-pressure homogenization for the
production of nanocellulose on an industrial scale. The types of nanocellulose and their microscopic
images are also described. Our research work is aimed at obtaining nano-sized cellulose. Cellulose
is one of the most common natural polymers that is part of an important part of the tissues of annual
and perennial plants, algae, bacteria and fungi. Using this raw material, it is proposed to obtain
nanocellulose, since cellulose is a linear homopolysaccharide, a macromolecule consisting of
monomeric anhydride-β-D-glucopyranose units linearly linked to each other by 1→4-glucosidic
bonds.

Ключевые слова

crystallization

nanocellulose

polymerization

microfibrillated cellulose

nanocrystalline cellulose

bacterial nanocellulose

№ Имя автора Должность Наименование организации

1 Egamberdiev E.A. DSc TDTU

2 Turabjanov S.M. Academician of the Academy of Science of the Republic of Uzbekistan, DSc, professor, TDTU

3 Rashidov S.A. Doctoral student TDTU

№ Название ссылки

1 1. Azarov V.I. Chemistry of wood and synthetic polymers. - St. Petersburg: SPbLTA, 1999.

2 2. Mikael Ankerfors, Microfibrillated cellulose. – Stockholm: Energy efficient preparation techniques and key properties, 2012

3 3. Gordon L.V. Technology and equipment for wood chemical production. - Moscow: Lesn. industry, 1988

4 4. Aliev S.; Egamberdiev E.; Turabdjanov S.; Rashidov S.; Juraev A. Role of fillers in the production of wood-polymer composites. E3S Web of Conferences, 2023, 434, 02030 DOI 10.1051/e3sconf/202343402030

5 5. Baltabaev R.; Eshmukhamedov M.; Abidov A.; Rashidov S. Influence study of thermostabilizers on the properties of cellulose triacetates. E3S Web of Conferences, 2023, 434, 01038 DOI 10.1051/e3sconf/202343401038

6 6. Egamberdiev E.; Ergashev Y.; Turabdjanov S.; Abdumavlyanova M.; Makhkamov A.; Rashidov, Sh.; Karimov, Sh.: Effect of chitosan on the surface properties of cellulose-based paper obtained from the flax plant. E3S Web of Conferences 371, 01010 (2023) https://doi.org/10.1051/e3sconf/202337101010

7 7. Ergashev Y.; Egamberdiev E.; Mirkhodjaeva D.; Akmalova G.; Umarova M.; Kholdarov R.: Obtaining a filter material used in gas and air purification. E3S Web of Conferences 371, 01012 (2023) https://doi.org/10.1051/e3sconf/202337101012

8 8. Egamberdiev E.; Turabdjanov S.; Akmalova G.; Mukhtarova N.; Ayubova I.; Mirzakhmedova M.; Rakhmonberdiev G.: Obtaining paper from composition of different fibers and its analysis. E3S Web of Conferences, 2023, 371, 01004, DOI 10.1051/e3sconf/202337101004

9 9. Azimov D.; Turabdjanov S.; Egamberdiyev E.; Arslanov S.; Muratkulov O. Investigation of the water of Aydarkul Lake into components and the scope of their application. E3S Web of Conferences, 2023, 421, 05004 DOI 10.1051/e3sconf/202342105004

10 10. Umarova, M.; Egamberdiyev E.; Maksumova O. Study of resource-saving viscosity modifiers of used oils. E3S Web of Conferences, 2023, 401, 05087 DOI 10.1051/e3sconf/202340105087

11 11. Egamberdiev E.; Akmalova G.; Rahmonberdiev G. Obtaining paper products from cellulose-containing plants and researching its field of application. 3rd International Conference on Energetics, Civil and Agricultural Engineering, ICECAE 2022Virtual, Online13 October 2022до 16 October 2022Код 187394, DOI 10.1088/1755-1315/1142/1/012054

12 12. Egamberdiev E.; Makhkamov A.; Rakhimjonov B.; Khusanov D.; Akmalova G.; Mirzakhmedova M.; Rahmonberdiev G. Effectiveness of cleaning of sunflower oil with filter material made from composition of organic and inorganic fibers. 3rd International Conference on Energetics, Civil and Agricultural Engineering, ICECAE 2022Virtual, Online13 October 2022до 16 October 2022Код 187394, DOI 10.1088/1755- 1315/1142/1/012050

13 13. Ergashev Y.; Egamberdiev E.; Turabdzhanov S.; Akmalova G.; Isanova R.; Rashidov R.; Sobitov O.: Obtaining filter material from natural fiber composition and areas of its use. E3S Web of Conferences, 2023, 371, 01047, DOI 10.1051/e3sconf/20233710104714.

14 Arslanov, Sh.; Turabdjanov S.; Azimova, Sh.; Azimov D.; Sultankhojaeva N.; Egamberdiev E.: Physico-chemical properties and research of acids contained in oils of Uzbekistan. E3S Web E3S Web of Conferences, 2023, 371, 01021, DOI 10.1051/e3sconf/202337101021

15 15. Igamqulova N.; Mengliev, Sh.; Egamberdiev E.: Reduction of waste disposed to the environment through recycling of unused methyldiethanolamine. E3S Web of Conferences 371, 01049 (2023)

16 16. E.Egamberdiev, S.Turabdjanov, D.Mirzaeva, Kh. Khaydullaev, U.Sharipova, A. Shokhakimova, and O.Bakhtiyorov.: Effect of chitosan substance on the mechanical properties of paper obtained on the basis of flax cellulose. E3S Web of Conferences 371, 01045 (2023) https://doi.org/10.1051/e3sconf/202337101045

17 17. G.A.Ozin, A.C.Arsenault. Nanochemistry. RSC Publ., Cambridge, 2005

18 18. G.B. Sergeyev. V kn. Nanoximiya: uchebnoye posobiye. KDU, Moskva,

19 19. V.P.Ananikov, K.A.Gayduk, I.P.Beletskaya, V.N.Khrustalev, M.Yu.Antipin. Eur. J. Inorg. Chem. 2009

20 20. D.Xiao, L.Xi, W.Yang, H.Fu, Z.Shuai, Y.Fang, J.Yao. J. Am. Chem. Soc. 2003

В ожидании

№	Имя автора	Должность	Наименование организации
1	Egamberdiev E.A.	DSc	TDTU
2	Turabjanov S.M.	Academician of the Academy of Science of the Republic of Uzbekistan, DSc, professor,	TDTU
3	Rashidov S.A.	Doctoral student	TDTU

№	Название ссылки
1	1. Azarov V.I. Chemistry of wood and synthetic polymers. - St. Petersburg: SPbLTA, 1999.
2	2. Mikael Ankerfors, Microfibrillated cellulose. – Stockholm: Energy efficient preparation techniques and key properties, 2012
3	3. Gordon L.V. Technology and equipment for wood chemical production. - Moscow: Lesn. industry, 1988
4	4. Aliev S.; Egamberdiev E.; Turabdjanov S.; Rashidov S.; Juraev A. Role of fillers in the production of wood-polymer composites. E3S Web of Conferences, 2023, 434, 02030 DOI 10.1051/e3sconf/202343402030
5	5. Baltabaev R.; Eshmukhamedov M.; Abidov A.; Rashidov S. Influence study of thermostabilizers on the properties of cellulose triacetates. E3S Web of Conferences, 2023, 434, 01038 DOI 10.1051/e3sconf/202343401038
6	6. Egamberdiev E.; Ergashev Y.; Turabdjanov S.; Abdumavlyanova M.; Makhkamov A.; Rashidov, Sh.; Karimov, Sh.: Effect of chitosan on the surface properties of cellulose-based paper obtained from the flax plant. E3S Web of Conferences 371, 01010 (2023) https://doi.org/10.1051/e3sconf/202337101010
7	7. Ergashev Y.; Egamberdiev E.; Mirkhodjaeva D.; Akmalova G.; Umarova M.; Kholdarov R.: Obtaining a filter material used in gas and air purification. E3S Web of Conferences 371, 01012 (2023) https://doi.org/10.1051/e3sconf/202337101012
8	8. Egamberdiev E.; Turabdjanov S.; Akmalova G.; Mukhtarova N.; Ayubova I.; Mirzakhmedova M.; Rakhmonberdiev G.: Obtaining paper from composition of different fibers and its analysis. E3S Web of Conferences, 2023, 371, 01004, DOI 10.1051/e3sconf/202337101004
9	9. Azimov D.; Turabdjanov S.; Egamberdiyev E.; Arslanov S.; Muratkulov O. Investigation of the water of Aydarkul Lake into components and the scope of their application. E3S Web of Conferences, 2023, 421, 05004 DOI 10.1051/e3sconf/202342105004
10	10. Umarova, M.; Egamberdiyev E.; Maksumova O. Study of resource-saving viscosity modifiers of used oils. E3S Web of Conferences, 2023, 401, 05087 DOI 10.1051/e3sconf/202340105087
11	11. Egamberdiev E.; Akmalova G.; Rahmonberdiev G. Obtaining paper products from cellulose-containing plants and researching its field of application. 3rd International Conference on Energetics, Civil and Agricultural Engineering, ICECAE 2022Virtual, Online13 October 2022до 16 October 2022Код 187394, DOI 10.1088/1755-1315/1142/1/012054
12	12. Egamberdiev E.; Makhkamov A.; Rakhimjonov B.; Khusanov D.; Akmalova G.; Mirzakhmedova M.; Rahmonberdiev G. Effectiveness of cleaning of sunflower oil with filter material made from composition of organic and inorganic fibers. 3rd International Conference on Energetics, Civil and Agricultural Engineering, ICECAE 2022Virtual, Online13 October 2022до 16 October 2022Код 187394, DOI 10.1088/1755- 1315/1142/1/012050
13	13. Ergashev Y.; Egamberdiev E.; Turabdzhanov S.; Akmalova G.; Isanova R.; Rashidov R.; Sobitov O.: Obtaining filter material from natural fiber composition and areas of its use. E3S Web of Conferences, 2023, 371, 01047, DOI 10.1051/e3sconf/20233710104714.
14	Arslanov, Sh.; Turabdjanov S.; Azimova, Sh.; Azimov D.; Sultankhojaeva N.; Egamberdiev E.: Physico-chemical properties and research of acids contained in oils of Uzbekistan. E3S Web E3S Web of Conferences, 2023, 371, 01021, DOI 10.1051/e3sconf/202337101021
15	15. Igamqulova N.; Mengliev, Sh.; Egamberdiev E.: Reduction of waste disposed to the environment through recycling of unused methyldiethanolamine. E3S Web of Conferences 371, 01049 (2023)
16	16. E.Egamberdiev, S.Turabdjanov, D.Mirzaeva, Kh. Khaydullaev, U.Sharipova, A. Shokhakimova, and O.Bakhtiyorov.: Effect of chitosan substance on the mechanical properties of paper obtained on the basis of flax cellulose. E3S Web of Conferences 371, 01045 (2023) https://doi.org/10.1051/e3sconf/202337101045
17	17. G.A.Ozin, A.C.Arsenault. Nanochemistry. RSC Publ., Cambridge, 2005
18	18. G.B. Sergeyev. V kn. Nanoximiya: uchebnoye posobiye. KDU, Moskva,
19	19. V.P.Ananikov, K.A.Gayduk, I.P.Beletskaya, V.N.Khrustalev, M.Yu.Antipin. Eur. J. Inorg. Chem. 2009
20	20. D.Xiao, L.Xi, W.Yang, H.Fu, Z.Shuai, Y.Fang, J.Yao. J. Am. Chem. Soc. 2003