Zohaib Saddique scite author profile

Zohaib Saddique

2Publications

4Citation Statements Received

0Citation Statements Given

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134

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University of the Punjab

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Enzyme-Linked Metal Organic Frameworks for Biocatalytic Degradation of Antibiotics

et al. 2023

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Metal organic frameworks (MOFs) are multi-dimensional network of crystalline material held together by bonding of metal atoms and organic ligands. Owing to unique structural, chemical, and physical properties, MOFs has been used for enzyme immobilization to be employed in different catalytic process, including catalytic degradation of antibiotics. Immobilization process other than providing large surface provides enzyme with enhanced stability, catalytic activity, reusability, and selectivity. There are various approaches of enzyme immobilization over MOFs including physical adsorption, chemical bonding, diffusion and in situ encapsulation. In situ encapsulation is one the best approach that provides extra stability from unfolding and denaturation in harsh industrial conditions. Presence of antibiotic in environment is highly damaging for human in particular and ecosystem in general. Different methods such as ozonation, oxidation, chlorination and catalysis are available for degradation or removal of antibiotics from environment, however these are associated with several issues. Contrary to these, enzyme immobilized MOFs are novel system to be used in catalytic degradation of antibiotics. Enzyme@MOFs are more stable, reusable and more efficient owing to additional support of MOFs to natural enzymes in well-established process of photocatalysis for degradation of antibiotics aimed at environmental remediation. Prime focus of this review is to present catalytic degradation of antibiotics by enzyme@MOFs while outlining their synthetics approaches, characterization, and mechanism of degradation. Furthermore, this review highlights the significance of enzyme@MOFs system for antibiotics degradation in particular and environmental remediation in general. Current challenges and future perspective of research in this field are also outlined along with concluding comments. Graphical Abstract

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On physical analysis of free Gibb’s energy based on topological indices for nickel sulfide

Caicai¹,

Hanif

Mahmood

et al. 2023

Journal of Molecular Structure

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Zohaib Saddique

Enzyme-Linked Metal Organic Frameworks for Biocatalytic Degradation of Antibiotics

On physical analysis of free Gibb’s energy based on topological indices for nickel sulfide

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