Architecture of a multi-channel and easy-to-make microfluidic paper-based colorimetric device (μPCD) towards selective and sensitive recognition of uric acid by AuNPs: an innovative portable tool for the rapid and low-cost identification of clinically relevant biomolecules

Farshchi, Fatemeh; Saadati, Arezoo; Hasanzadeh, Mohammad; Seidi, Farzad

doi:10.1039/d1ra04764g

Cited by 26 publications

(31 citation statements)

References 81 publications

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“…Generally, smoother membranes with enhanced hydrophilic characteristics and lower charge surfaces are less likely to experience particulate fouling. On the other hand, hydrodynamically stressful operating conditions featuring high membrane flux rates and/or low CFV can cause severe membrane damage ( Farshchi et al, 2021a ; Vatanpour et al, 2021a ). For virus removal, however, nanoparticles can be effective where they are used individually, as comprehensively discussed in terms of mechanisms and properties ( Ju et al, 2021 ).…”

Section: Virus Removal By Membrane Technologymentioning

confidence: 99%

“…For example, since the 1970s the California State Department of Health in the USA has started to establish virus removal by defining the quality and treatment standards for the water discharged into the ponds and rivers as the main harmful sources of human health ( Dryden et al, 1979 ). Commonly, viruses are present in low concentration in the waterborne, as a consequence of the analysis methods used for viruses' detection being complex — a limit on virus concentration not being specified in the national and international regulations during the last centuries ( Barczak et al, 2021 ; Farshchi et al, 2021a ; Kordasht et al, 2021 ). Thus, attention has been gradually directed to a shift from using simple to combination treatment methods.…”

Section: Introductionmentioning

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: Introductionmentioning

confidence: 99%

Recent advances in aqueous virus removal technologies

Al‐Hazmi

Shokrani

et al. 2022

Chemosphere

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“…27,28 Renewable polymers can be utilized in various biomedical applications such as tissue engineering and biosensing. 19,29,30 "Polymers from Renewable Resources" is a leading journal that collects and analyses valuable research works in the area of renewable polymer leading to fast paced development in synthesis and applications of sustainable polymers. [31][32][33][34] DDSs are promising platforms for treatment of various diseases such as cancers and genetic disorders.…”

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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“…Nowadays, usage of a variety of materials with several advantages can provide appropriate modification on the surface of electrode for the determination of various analytes. [24][25][26][27][28] Electrochemical polymerization, which is also called electropolymerization, is one of the simple and efficient ways of electrodeposition of various materials on the electrode surface. Electropolymerization is usually accomplished in an aqueous medium of monomer solution and electrolyte within an electrochemical cell using three electrodes.…”

Section: Introductionmentioning

confidence: 99%

“…Over the last few decades, various electrochemical methods including voltammetric, amperometric and potentiometric have been in the centre of attraction for the determination of enormous targets. Nowadays, usage of a variety of materials with several advantages can provide appropriate modification on the surface of electrode for the determination of various analytes 24‐28 . Electrochemical polymerization, which is also called electropolymerization, is one of the simple and efficient ways of electrodeposition of various materials on the electrode surface.…”

Section: Introductionmentioning

confidence: 99%

An innovative electrically conductive biopolymer based on poly(β‐cyclodextrin) towards recognition of ascorbic acid in real sample: Utilization of biocompatible advanced materials in biomedical analysis

Behyar

Kordasht

Hassanpour

et al. 2022

J of Molecular Recognition

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In this study, a sensitive platform was designed for the electrocatalytical oxidation and recognition of ascorbic acid (AA) based on poly(β-cyclodextrin) modified glassy carbon electrode (p(β-CD-GCE). Electropolymerization of β-CD on the surface of GCE was performed on the potential range of À1 to 1.5 V. So, a novel biopolymer was prepared on the surface of GCE towards sensitive recognition of AA in human plasma samples. The developed platform has good sensitivity and accuracy for electrooxidation and detection of AA with lower limit of quantification (LLOQ) of 1 nM and linear range of 1 nM to 100 mM. Moreover, the designed electrochemical sensor was employed for the analysis of AA on human plasma samples with high sensitivity. Based on advantages of p(β-CD) prepared by electropolymerization procedure (green, fast, homogeny, and efficient eletrocatalytical behaviour), this conductive biopolymer showed excellent analytical behaviour towards electrooxidation of AA. It is expected that the prepared polymeric interface is able to use in the analysis of biological species in clinical samples.

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Architecture of a multi-channel and easy-to-make microfluidic paper-based colorimetric device (μPCD) towards selective and sensitive recognition of uric acid by AuNPs: an innovative portable tool for the rapid and low-cost identification of clinically relevant biomolecules

Abstract: A portable microfluidic paper-based colorimetric sensor based on various type of gold nanoparticle (AuNPs) for the monitoring of UA was developed.

Cited by 26 publications

References 81 publications

Recent advances in aqueous virus removal technologies

Recent advances in aqueous virus removal technologies

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

An innovative electrically conductive biopolymer based on poly(β‐cyclodextrin) towards recognition of ascorbic acid in real sample: Utilization of biocompatible advanced materials in biomedical analysis

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