2022
DOI: 10.1016/j.addr.2022.114590
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Surface modification of two-dimensional layered double hydroxide nanoparticles with biopolymers for biomedical applications

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Cited by 42 publications
(22 citation statements)
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“…This exchangeability increases by increasing the charge of the incoming anion and by decreasing its ionic radius [17]. Moreover, when bio-active compounds are involved, interfacial interaction between the hosting structure and the guest molecule, i.e., adsorption on either the outer surface or within the layers, occurs [23]; therefore, exchanging anions can also substitute the enzyme through surface interactions. Zou and Planck [8,9] reported the use of Na 2 SO 4 0.08 M for the release of cellulase from LDH.…”
Section: Effect Of Medium On the Release Of Enzyme From The Ldh Struc...mentioning
confidence: 99%
“…This exchangeability increases by increasing the charge of the incoming anion and by decreasing its ionic radius [17]. Moreover, when bio-active compounds are involved, interfacial interaction between the hosting structure and the guest molecule, i.e., adsorption on either the outer surface or within the layers, occurs [23]; therefore, exchanging anions can also substitute the enzyme through surface interactions. Zou and Planck [8,9] reported the use of Na 2 SO 4 0.08 M for the release of cellulase from LDH.…”
Section: Effect Of Medium On the Release Of Enzyme From The Ldh Struc...mentioning
confidence: 99%
“…The surface modification of LDH by polymers is an important strategy for their application in the pharmaceutical field owing to the enhancement of key characteristics of these hybrids, such as improved stability, biocompatibility, dispersity, cellular uptake and decrease in systemic toxicity [ 52 , 157 , 158 ]. The interaction process of organic molecules and the surfaces of LDH particles can involve different regions of the inorganic phase, such as the interlayer space and/or the external surface [ 159 ]. However, methodologies involving mainly the interaction of polymers with the outer surface of the LDH phase allow a larger uptake of a certain bioactive compound, which could benefit drug delivery applications, for instance [ 160 ].…”
Section: Layered Double Hydroxides: Structure Physicochemical Propert...mentioning
confidence: 99%
“…However, methodologies involving mainly the interaction of polymers with the outer surface of the LDH phase allow a larger uptake of a certain bioactive compound, which could benefit drug delivery applications, for instance [ 160 ]. Such interaction between the LDH surface and a polymer or a therapeutic agent occurs primarily through Coulombic interaction caused by the positively charged layers of the inorganic phase [ 159 , 161 ], which can be optimized when the organic species have negatively charged groups within their structures. However, a large variety of organic molecules are neutral or do not possess significant hydrophilic portions to interact with the hydroxylated surface of LDH, which can cause poor compatibility between both phases [ 162 ] and, consequently, worsen several physical properties of the composite.…”
Section: Layered Double Hydroxides: Structure Physicochemical Propert...mentioning
confidence: 99%
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“…n H 2 O, where M(II) and M(III) are metal cations and A is an anion in the interlayer (Zhang et al, 2023) . LDH can be synthesized by various methods including sol-gel, hydrothermal, and coprecipitation methods (Pavlovic et al, 2022;Valeikiene et al, 2019). However, among these methods, the coprecipitation method is the most commonly used method because of the ease of the process and the ease of control such as pH parameters during the synthesis process (Wang et al, 2022) .…”
Section: Introductionmentioning
confidence: 99%