Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril

Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril

In this present investigation, a novel series of composite materials based on porous inorganic compounds—hydroxyapatite and diatomite—have been innovatively formulated for the first time through surface modification employing the promising macromolecular compound, bambus[6]uril. The process entailed...

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Main Authors: Gulstan Zhumabayeva, Pana Turebayeva, Arthur Ukhov, Dmitry Fedorishin, Alexander Gubankov, Venera Luchsheva, Irina Kurzina, Abdigali Bakibaev, Roza Ryskaliyeva, Gulnara Abdullina, Saltanat Bolysbekova, Rakhmetulla Yerkassov
Format: Article
Language:English
Published: MDPI AG 2023-11-01
Series:Materials
Subjects:
bambus[6]urils
hydroxyapatite
diatomite
biocompatible materials
hemolytic effect
plasma protein adsorption
Online Access:https://www.mdpi.com/1996-1944/16/23/7257
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author Gulstan Zhumabayeva
Pana Turebayeva
Arthur Ukhov
Dmitry Fedorishin
Alexander Gubankov
Venera Luchsheva
Irina Kurzina
Abdigali Bakibaev
Roza Ryskaliyeva
Gulnara Abdullina
Saltanat Bolysbekova
Rakhmetulla Yerkassov
author_facet Gulstan Zhumabayeva
Pana Turebayeva
Arthur Ukhov
Dmitry Fedorishin
Alexander Gubankov
Venera Luchsheva
Irina Kurzina
Abdigali Bakibaev
Roza Ryskaliyeva
Gulnara Abdullina
Saltanat Bolysbekova
Rakhmetulla Yerkassov
author_sort Gulstan Zhumabayeva
collection DOAJ
description In this present investigation, a novel series of composite materials based on porous inorganic compounds—hydroxyapatite and diatomite—have been innovatively formulated for the first time through surface modification employing the promising macromolecular compound, bambus[6]uril. The process entailed the application of a bambus[6]uril dispersion in water onto the surfaces of hydroxyapatite and diatomite. Extensive characterization was carried out, involving IR spectroscopy and SEM. The materials underwent assessment for hemolytic effects and plasma protein adsorption. The results revealed that materials containing surface-bound bambus[6]uril did not demonstrate inherent hemolytic effects, laying a robust groundwork for their use as biocompatible materials. These findings hold significant promise as an alternative pathway for the development of durable and efficient bio-composites, potentially unveiling supramolecular strategies incorporating encapsulated bambus[6]urils in analogous processes.
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spelling doaj.art-136a43883f9247bfbffddedfc10b9e4f2023-12-08T15:20:22ZengMDPI AGMaterials1996-19442023-11-011623725710.3390/ma16237257Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]UrilGulstan Zhumabayeva0Pana Turebayeva1Arthur Ukhov2Dmitry Fedorishin3Alexander Gubankov4Venera Luchsheva5Irina Kurzina6Abdigali Bakibaev7Roza Ryskaliyeva8Gulnara Abdullina9Saltanat Bolysbekova10Rakhmetulla Yerkassov11Department of Chemistry, L.N. Gumilyov Eurasian National University, Astana 010000, KazakhstanDepartment of Chemistry, L.N. Gumilyov Eurasian National University, Astana 010000, KazakhstanFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry, National Research Tomsk State University, 634028 Tomsk, RussiaFaculty of Chemistry and Chemical Technology, Department of General and Inorganic Chemistry, Al-Farabi Kazakh National University, Almaty 050000, KazakhstanFaculty of Engineering, Department of Mechanics and Oil and Gas Engineering, Toraigyrov University, Pavlodar 140008, KazakhstanHigher School of Scientific Research, Astana International University, Astana 010000, KazakhstanDepartment of Chemistry, L.N. Gumilyov Eurasian National University, Astana 010000, KazakhstanIn this present investigation, a novel series of composite materials based on porous inorganic compounds—hydroxyapatite and diatomite—have been innovatively formulated for the first time through surface modification employing the promising macromolecular compound, bambus[6]uril. The process entailed the application of a bambus[6]uril dispersion in water onto the surfaces of hydroxyapatite and diatomite. Extensive characterization was carried out, involving IR spectroscopy and SEM. The materials underwent assessment for hemolytic effects and plasma protein adsorption. The results revealed that materials containing surface-bound bambus[6]uril did not demonstrate inherent hemolytic effects, laying a robust groundwork for their use as biocompatible materials. These findings hold significant promise as an alternative pathway for the development of durable and efficient bio-composites, potentially unveiling supramolecular strategies incorporating encapsulated bambus[6]urils in analogous processes.https://www.mdpi.com/1996-1944/16/23/7257bambus[6]urilshydroxyapatitediatomitebiocompatible materialshemolytic effectplasma protein adsorption
spellingShingle Gulstan Zhumabayeva
Pana Turebayeva
Arthur Ukhov
Dmitry Fedorishin
Alexander Gubankov
Venera Luchsheva
Irina Kurzina
Abdigali Bakibaev
Roza Ryskaliyeva
Gulnara Abdullina
Saltanat Bolysbekova
Rakhmetulla Yerkassov
Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
Materials
bambus[6]urils
hydroxyapatite
diatomite
biocompatible materials
hemolytic effect
plasma protein adsorption
title Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
title_full Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
title_fullStr Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
title_full_unstemmed Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
title_short Development of Novel Composite Biocompatible Materials by Surface Modification of Porous Inorganic Compounds Using Bambus[6]Uril
title_sort development of novel composite biocompatible materials by surface modification of porous inorganic compounds using bambus 6 uril
topic bambus[6]urils
hydroxyapatite
diatomite
biocompatible materials
hemolytic effect
plasma protein adsorption
url https://www.mdpi.com/1996-1944/16/23/7257
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