Yiik Siang Hii scite author profile

Graphical abstract Numerous viral infections are common among humans, and some can lead to death. Even though conventional antiviral agents are beneficial in eliminating viral infections, they may lead to side effects or physiological toxicity. Silver nanoparticles and nanocomposites have been demonstrated to possess inhibitory properties against several pathogenic microbes, including archaea, bacteria, fungi, algae, and viruses. Its pronounced antimicrobial activity against various microbe-mediated diseases potentiates its use in combating viral infections. Notably, the appropriated selection of the synthesis method to fabricate silver nanoparticles is a major factor for consideration as it directly impacts antiviral efficacy, level of toxicity, scalability, and environmental sustainability. Thus, this article presents and discusses various synthesis approaches to produce silver nanoparticles and nanocomposites, providing technological insights into selecting approaches to generate antiviral silver-based nanoparticles. The antiviral mechanism of various formulations of silver nanoparticles and the evaluation of its propensity to combat specific viral infections as a potential antiviral agent are also discussed.

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Isolation and characterisation of phosphate solubilizing microorganisms from peat

Hii

Chan

Lau

et al. 2020

Biocatalysis and Agricultural Biotechnology

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Plant mediated green synthesis and nanoencapsulation of MgO nanoparticle from Calotropis gigantea: Characterisation and kinetic release studies

Hii

Jeevanandam

Chan

2018

Inorganic and Nano-Metal Chemistry

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Biogenic synthesis of magnesium oxide nanoparticles using Aloe barbadensis leaf latex extract

Jeevanandam

Chan

Wong

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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Biological methods are employed to yield less or non-toxic MgO nanoparticles to utilize them in biological applications. Among various biosynthesis approaches, plant extracts with phytochemicals, especially from leaves, are widely used to fabricate MgO nanoparticles, due to their high availability, rapid synthesis and ability to yield smaller stable nanoparticles. Aloe barbadensis is a succulent xerophytic plant with unique characteristics to withhold water in its leaf named parenchymal gel, which is protected by a chloroplast containing thick latex, to avoid transpiration in high temperature condition of the desert. These latex contains phytochemicals such as flavanol, quercetin, Kaempeferol, myricetin and fisetin, along with other common phytochemicals such as phenols and terpenoids, that are essential for nanoparticle formation. Further, these compounds also possess enhanced biological properties. Thus, the aim of the present study is to obtain crude phytochemical extracts from Aloe barbadensis latex and utilize them as reducing and stabilizing agent for the smaller MgO nanoparticle formation. In addition, the parameters which affect the formation of nanoparticles are identified and optimized to yield smaller MgO nanoparticles with phytochemicals as surface functional groups, to be beneficial in biomedical applications.

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Yiik Siang Hii

Synthesis approach-dependent antiviral properties of silver nanoparticles and nanocomposites

Isolation and characterisation of phosphate solubilizing microorganisms from peat

Plant mediated green synthesis and nanoencapsulation of MgO nanoparticle from Calotropis gigantea: Characterisation and kinetic release studies

Biogenic synthesis of magnesium oxide nanoparticles using Aloe barbadensis leaf latex extract

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