Stabilization of melon cloudy juice with biopolymer agar

Tazhibayeva, Sagdat; Tyussyupova, Bakyt; Khamitova, Inabat Kuanyshevna; Toktarbay, Zhexenbek; Мusabekov, Kuanyshbek; Daribayeva, Gulnur Tleuhanovna

doi:10.15587/1729-4061.2020.210503

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…According to the data in the table, a spherical binanocomposite formed from silvered organoclay and agar-agar in a calcium shell shows water resistance and shows good swelling, although they were left in water for 72 hours to swell. This shows that this bionanocomposite with antimicrobial properties is a good enough result to be introduced into its drugs [ [16], [17], [18], [19], [20]]. As can be seen from Table 4, in microspheres with an increase in the amount of organoclay, the absorption capacity of the microspheres of the bionanocomposite decreases.…”

Section: Resultsmentioning

confidence: 84%

Features of obtaining composite material from hydrophobic clay with antimicrobic properties

Ibraimova,

Rozhkova,

Musabekov

et al. 2024

Kompl. Ispolz. Min. Syra = Compl. Use of Min. Resour.

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A method for obtaining a nanocomposite from hydrophobic clays with bactericidal properties is considered, which plays the role of a drug matrix intercalated agar-agar. Such nanocomposite materials are increasingly used in medicine as matrices for medicines and vitamins using their adsorption properties and long-term exposure. It was established using TEM analysis that halloysite particles from Beloye Glinische deposit are nanoscale and have a cylindrical shape with a length from 200 nm to 1000 nm and a diameter of nanoparticles from 50 nm to 80 nm. The first stage of the bionanocomposites manufacturing process was the treatment of halloysite nanoparticles with silver ions to impart antimicrobial properties, and hydrophobization with a cationic surfactant was carried out at the next stage. It was established by the X-ray diffraction method that the interlayer space of HNT has been expanded from 9.998 Å to 17.5 Å on the result of the cationic adsorption on the HNT. FTIR spectroscopy also proved the adsorption of surfactant molecules on halloysite by the presence of an appropriate absorption band. The adsorption of silver on a nanotube made of halloysite was revealed by the method of energy-dispersive X-ray spectroscopy. Antimicrobial properties of silver-treated and organophilic halloysite have been established and proved by in vitro analyses in microbiological laboratories about Escherichia coli. Hydrophobic samples of these organophilic clays had edge angles higher than 90° and this proves that all samples are hydrophobic. The resulting organophilic clays were intercalated into an agar-agar matrix and were thrown into a solution of calcium chloride, which gave them stability in a liquid medium. It has been practically established that the most optimal bionanocomposite microsphere is a 50% ratio of organohalloysite and agar-agar.

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Section: Resultsmentioning

confidence: 84%

Features of obtaining composite material from hydrophobic clay with antimicrobic properties

Ibraimova,

Rozhkova,

Musabekov

et al. 2024

Kompl. Ispolz. Min. Syra = Compl. Use of Min. Resour.

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Preparation and research of cosmetic products based on domestic raw materials

Rakhymbay

Yessimova

Kumargaliyeva

et al. 2022

Materials Today: Proceedings

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Potential Sources of Biodegradable Polymers

Singh

Chunglok

2022

Biopolymers Towards Green and Sustainable Development

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Synthetic polymers are an important class of pharmaceutical excipients that contribute significantly to the fabrication of different dosage forms. However, due to biodegradability concerns, the highly publicized disposal problem of traditional oilbased thermoplastics with a detrimental effect on the environment, has promoted the search for alternative biodegradable polymers. Biodegradable polymers are an ecofriendly, economic, and safe alternative to synthetic polymers due to their biodegradable nature and the source of origin. Biopolymers and biomaterials are available in abundance with different pharmaceutical and medical applications including drug delivery, wound healing, tissue engineering, imaging agents, etc. Moreover, biopolymers possess certain specific properties such as biocompatibility, biodegradability, low antigenicity, functionality to support cell growth, and proliferation with appropriate mechanical strength. Biopolymers are obtained from sustainable natural resources and animal processing co-products and wastes. Polysaccharides such as cellulose and starch represent the major characteristics of the family of these natural biopolymers, while other biodegradable polymers such as bacterial cellulose and sericin are also used to develop biodegradable materials. Recent advancements and development in the field of natural polymers have opened up new possibilities for the rational engineering of natural gums and mucilage towards the expansion of functional excipients suitable for industrial and medical applications. This chapter highlights the potential sources of novel biodegradable polymers with recent expansion in the processing of different novel natural polymers to develop multifunctional excipients and valorization of waste biomass to produce biopolymers.

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Stabilization of melon cloudy juice with biopolymer agar

Cited by 3 publications

References 22 publications

Features of obtaining composite material from hydrophobic clay with antimicrobic properties

Features of obtaining composite material from hydrophobic clay with antimicrobic properties

Preparation and research of cosmetic products based on domestic raw materials

Potential Sources of Biodegradable Polymers

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