Biomimetic Metallic Nanostructures for Biomedical Applications, Catalysis, and Beyond

Yaraki, Mohammad Tavakkoli; Nasab, Shima Zahed; Zare, Iman; Dahri, Mohammad; Sadeghi, Mohammad Moein; Koohi, Maedeh; Tan, Yen Nee

doi:10.1021/acs.iecr.2c00285

Cited by 47 publications

(8 citation statements)

References 478 publications

(805 reference statements)

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“…12 Numerous investigations have demonstrated that the fluorescence of metal NCs is sensitive to changes in the microenvironment caused by changes in the electron-transferring mechanism between the metal core and the protected ligand. 13 Several nanoplatforms based on fluorescence metal nanoclusters (FMNCs) have been developed for colorimetric assays because of their high water solubility, good biocompatibility, and rich surface chemistry for conjugation. 14 Due to beneficial characterization, further development of FMNC-based colorimetric assay strategies has gained sufficient popularity and is strongly encouraged.…”

Section: S Typhimuriummentioning

confidence: 99%

Challenges and Opportunities of Using Fluorescent Metal Nanocluster-Based Colorimetric Assays in Medicine

Mohseni,

Moodi,

Kefayat

et al. 2024

ACS Omega

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Development of rapid colorimetric methods based on novel opticalactive metal nanomaterials has provided methods for the detection of ions, biomarkers, cancers, etc. Fluorescent metal nanoclusters (FMNCs) have gained a lot of attention due to their unique physical, chemical, and optical properties providing numerous applications from rapid and sensitive detection to cellular imaging. However, because of very small color changes, their colorimetric applications for developing rapid tests based on the naked eye or simple UV−vis absorption spectrophotometry are still limited. FMNCs with peroxidase-like activity have significant potential in a wide variety of applications, especially for point-of-care diagnostics. In this review, the effect of using various capping agents and metals for the preparation of nanoclusters in their colorimetric sensing properties is explored, and the synthesis and detection mechanisms and the recent advances in their application for ultrasensitive chemical and biological analysis regarding human health are highlighted. Finally, the challenges that remain as well as the future perspectives are briefly discussed. Overcoming these limitations will allow us to expand the nanocluster's application for colorimetric diagnostic purposes in medical practice.

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Section: S Typhimuriummentioning

confidence: 99%

Challenges and Opportunities of Using Fluorescent Metal Nanocluster-Based Colorimetric Assays in Medicine

Mohseni,

Moodi,

Kefayat

et al. 2024

ACS Omega

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“…Plants are the most commonly used biological substrates for the green synthesis of NPs because they are biocompatible and readily available [55,56]. It is possible to reduce and stabilise ions using a combination of biomolecules such as proteins, amino acids, flavonoids, citric acid, various enzymes, polysaccharides, phenols, saponins, terpenoids and vitamins found in plants extracts [57][58][59][60].…”

Section: Bio-templates-mediated Synthesis Strategies 21 Plant Extractsmentioning

confidence: 99%

Green Synthesis of Magnesium Oxide Nanoparticles and Nanocomposites for Photocatalytic Antimicrobial, Antibiofilm and Antifungal Applications

Farani

Farsadrooh

Zare³

et al. 2023

Catalysts

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Magnesium oxide nanoparticles (MgO NPs) have emerged as potential materials for various biomedical applications due to their unique physicochemical properties, including biodegradability, biocompatibility, cationic capacity, high stability and redox properties. MgO NPs have become an attractive platform to combat microbes and may be a promising alternative to overcome challenges associated with eliminating microbial biofilms and antibiotic resistance. Hence, due to the increasing use of MgO NPs in biomedicine, new synthetic strategies for MgO NPs are necessary. MgO NPs synthesised using green methods are non-toxic, eco-friendly and have high stability for a wide range of biological, medical and catalytic applications. This review presents the recent advances in biosynthesis strategies of MgO NPs by diverse bio-templates, such as plant, bacterial, fungal and algal extracts. Its photocatalytic properties show a suitable inhibitory function against pathogenic agents, such as microbial proliferation, biofilm formation and fungal growth. Furthermore, MgO NPs and relevant nanocomposites are comprehensively discussed regarding the mechanisms of their effect on microbes, biofilms and fungal strains, as well as challenges and future perspectives.

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“…Less rigorous and sustainable methodologies are critical for engineering advanced metal–polymer nanostructures with applications in energy storage and electronics; accordingly, it is necessary to combine separation and advanced analytical techniques for reliable characterizations of the inherent molecular heterogeneities. , Metallic nanostructures have multiple applications in energy storage, biosensors, drug delivery, wearable electronics, and robotics, to mention just a few. , However, these metallic nanostructures are inherently complex and heterogeneous, with multiple distributions in their molecular properties . As such, combinations of separation and advanced analytical techniques are prerequisites for the reliable definition, understanding, and fine-tuning of the fundamental nexus between (i) inherent molecular properties, (ii) physicochemical properties and multiple functionalities, and (iii) the pristine end-use applications …”

Section: Introductionmentioning

confidence: 99%

“…1,2 Metallic nanostructures have multiple applications in energy storage, biosensors, drug delivery, wearable electronics, and robotics, to mention just a few. 3,4 However, these metallic nanostructures are inherently complex and heterogeneous, with multiple distributions in their molecular properties. 5 As such, combinations of separation and advanced analytical techniques are prerequisites for the reliable definition, understanding, and fine-tuning of the fundamental nexus between (i) inherent molecular properties, (ii) physicochemical properties and multiple functionalities, and (iii) the pristine end-use applications.…”

Section: ■ Introductionmentioning

confidence: 99%

High-Resolution Tracking of Multiple Distributions in Metallic Nanostructures: Advanced Analysis Was Carried Out with Novel 3D Correlation Thermal Field-Flow Fractionation

et al. 2023

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Multifunctional metallic nanostructures are essential in the architecture of modern technology. However, their characterization remains challenging due to their hybrid nature. In this study, we present a novel photoreduction-based protocol for augmenting the inherent properties of imidazolium-containing ionic polymers (IIP)s through orthogonal functionalization with gold nanoparticles (Au NPs) to produce IIP_Au NPs, as well as novel and advanced characterization via three-dimensional correlation thermal field-flow fractionation (3DCoThFFF). Coordination chemistry is applied to anchor Au 3+ onto the nitrogen atom of the imidazolium rings, for subsequent photoreduction to Au NPs using UV irradiation. Thermal field-flow fractionation (ThFFF) and the localized surface plasmon resonance (LSPR) of Au NPs are both dependent on size, shape, and composition, thus synergistically co-opted herein to develop mutual correlation for the advanced analysis of 3D spectral data. With 3DCoThFFF, multiple sizes, shapes, compositions, and their respective distributions are synchronously correlated using time-resolved LSPR, as derived from multiple two-dimensional UV−vis spectra per unit ThFFF retention time. As such, higher resolutions and sensitivities are observed relative to those of regular ThFFF and batch UV−vis. In addition, 3DCoThFFF is shown to be highly suitable for monitoring and evaluating the thermostability and dynamics of the metallic nanostructures through the sequential correlation of UV−vis spectra measured under incremental ThFFF temperature gradients. Comparable sizes are measured for IIP and IIP_Au NPs. However, distinct elution profiles and UV−vis absorbances are recorded, thereby reaffirming the versatility of ThFFF as a robust tool for validating the successful functionalization of IIP with Au to produce IIP_Au NPs.

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Biomimetic Metallic Nanostructures for Biomedical Applications, Catalysis, and Beyond

Cited by 47 publications

References 478 publications

Challenges and Opportunities of Using Fluorescent Metal Nanocluster-Based Colorimetric Assays in Medicine

Challenges and Opportunities of Using Fluorescent Metal Nanocluster-Based Colorimetric Assays in Medicine

Green Synthesis of Magnesium Oxide Nanoparticles and Nanocomposites for Photocatalytic Antimicrobial, Antibiofilm and Antifungal Applications

High-Resolution Tracking of Multiple Distributions in Metallic Nanostructures: Advanced Analysis Was Carried Out with Novel 3D Correlation Thermal Field-Flow Fractionation

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