The Fe3O4@apple seed starch core-shell structure decorated In(III): A green biocatalyst for the one-pot multicomponent synthesis of pyrazole-fused isocoumarins derivatives under solvent-free conditions

Marandi, Alireza; Nasiri, Erfan; Koukabi, Nadiya; Seidi, Farzad

doi:10.1016/j.ijbiomac.2021.08.085

Cited by 40 publications

(16 citation statements)

References 58 publications

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“…Overall, there are several factors affecting the membrane fouling, but mainly they can be counted as: (1) the size of particle or solute; (2) the microstructure of membrane; (3) the interactions between membrane, solute and solvent; and (4) the surface roughness, porosity and other physical properties of the membrane ( Liu et al, 2019 ). Nanoparticles affect the pores and the surface of the membrane, helpful to control the fouling rate of membrane ( Marandi et al, 2021 ; Zarrintaj et al, 2021 ; Nasrollahi et al, 2022 ; Vatanpour et al, 2022a ). Careful selection of nanoparticles leads to uniformity in the pore size making the membrane controllable for the removal of any contaminants whatever their size.…”

Section: Virus Removal By Membrane Technologymentioning

confidence: 99%

“…It is worth reminding that applicability to decentralize is another key factor of NMs-based disinfection ( Alvarez et al, 2018 ; Hodges et al, 2018 ; Mauter et al, 2018 ; Zhang et al, 2019a ). Moreover, semiconductor-based photocatalysis is reported as another simple approach to save energy ( Marandi et al, 2021 ). For instance, g-C 3 N 4 based photocatalysis, metal-organic templates, as well as layered hydroxides are promising photocatalysts for virus removal systems.…”

Section: Virus Removal By Disinfection Processesmentioning

confidence: 99%

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Recent advances in aqueous virus removal technologies

Al‐Hazmi

Shokrani

et al. 2022

Chemosphere

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Section: Virus Removal By Membrane Technologymentioning

confidence: 99%

Section: Virus Removal By Disinfection Processesmentioning

confidence: 99%

Recent advances in aqueous virus removal technologies

Al‐Hazmi

Shokrani

et al. 2022

Chemosphere

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“…The first and foremost thing for pharmaceutical and biomedical usage is choosing a toxicologically biocompatible building block. Based on being highly toxic, utilization of some metals (for example, Ni, Co, Cr, Sn, and Cd) as metal nodes are limited 50 , 51 . On the other hand, some metals exist in our bodies in large amounts, like the Fe in hemoglobin.…”

Section: Introductionmentioning

confidence: 99%

MIL-125-based nanocarrier decorated with Palladium complex for targeted drug delivery

Bagherzadeh

Safarkhani

Kiani

et al. 2022

Sci Rep

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The aim of this work was to provide a novel approach to designing and synthesizing a nanocomposite with significant biocompatibility, biodegradability, and stability in biological microenvironments. Hence, the porous ultra-low-density materials, metal–organic frameworks (MOFs), have been considered and the MIL-125(Ti) has been chosen due to its distinctive characteristics such as great biocompatibility and good biodegradability immobilized on the surface of the reduced graphene oxide (rGO). Based on the results, the presence of transition metal complexes next to the drug not only can reinforce the stability of the drug on the structure by preparing π–π interaction between ligands and the drug but also can enhance the efficiency of the drug by preventing the spontaneous release. The effect of utilizing transition metal complex beside drug (Doxorubicin (DOX)) on the drug loading, drug release, and antibacterial activity of prepared nanocomposites on the P. aeruginosa and S. aureus as a model bacterium has been investigated and the results revealed that this theory leads to increasing about 200% in antibacterial activity. In addition, uptake, the release of the drug, and relative cell viabilities (in vitro and in vivo) of prepared nanomaterials and biomaterials have been discussed. Based on collected data, the median size of prepared nanocomposites was 156.2 nm, and their biological stability in PBS and DMEM + 10% FBS was screened and revealed that after 2.880 min, the nanocomposite’s size reached 242.3 and 516 nm respectively. The MTT results demonstrated that immobilizing PdL beside DOX leads to an increase of more than 15% in the cell viability. It is noticeable that the AST:ALT result of prepared nanocomposite was under 1.5.

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“…Green synthesis of low-and high-molecular weight chemicals has become a necessity nowadays considering environmental pollutions, global warming, emission of greenhouse gases from industrial plants, and more recently pandemic disease like COVID-19 outbreak. [1][2][3] Renewable or sustainable polymers are a class of polymers that are originally extracted from renewable resources. [4][5][6][7] Natural polymers and naturally derived sustainable monomers, for example, sugar, are the most well-known members of the renewable polymers' family.…”

Section: Introductionmentioning

confidence: 99%

Drug delivery systems based on renewable polymers: A conceptual short review

Yazdi

Jabbour

Sajadi

et al. 2022

Polymers from Renewable Resources

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There are ever increasing concerns about environmental and health hazards of conventional synthetic polymers. These polymers are not sustainable because their production process relies on fossil-based feedstocks and energy sources. Economic benefits and beneficial physicochemical and mechanical properties have made synthetic polymers to be used in wide range of applications from packaging to biomedicine. On the other hand, modern chemistry has provided us with invaluable tools to make well-defined polymers with tailored properties which can be used in biomedical filed such as designing advanced drug delivery systems (DDSs). In fact, polymers are indispensable constituents of most of novel DDSs. However, sustainability concerns about raw materials and polymeric building blocks of such DDSs, remains unsolved. In addition, efficient and proper degradability of sustainable building blocks of DDSs is important for their clearance from human body. Accordingly, development of sustainable and biodegradable polymeric materials is highly demanding in development of sustainable DDSs. This perspective provides a general overview on sustainable polymers and highlights their potential applications in designing novel DDSs. Unsolved challenges and future prospects are discussed accompanied by offering potential solutions.

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The Fe3O4@apple seed starch core-shell structure decorated In(III): A green biocatalyst for the one-pot multicomponent synthesis of pyrazole-fused isocoumarins derivatives under solvent-free conditions

Cited by 40 publications

References 58 publications

Recent advances in aqueous virus removal technologies

Recent advances in aqueous virus removal technologies

MIL-125-based nanocarrier decorated with Palladium complex for targeted drug delivery

Drug delivery systems based on renewable polymers: A conceptual short review

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