Recent Development in Urban Polyhydroxyalkanoates Biorefineries

Kaur, Parneet; Bhola, Shivam; Kumar, Pradeep; Kumar, Vinay; Kulshreshtha, Saurabh; Sharma, Abha; Park, SeoA; Choi, Kwon‐Young

doi:10.1002/cben.202200045

ChemBioEng Reviews

2023

DOI: 10.1002/cben.202200045

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Recent Development in Urban Polyhydroxyalkanoates Biorefineries

Parneet Kaur

Shivam Bhola

Pradeep Kumar

et al.

Abstract: The widespread use of plastic items and their improper disposal harms not only physical environments but also human health globally. Therefore, a bioplastic or polymer that can completely vanish from the environment is the foremost priority. Bioplastic can be manufactured using raw materials from plants, animals, and microbes. Polyhydroxyalkaonates (PHAs) is a type of bioplastic which is naturally produced by microbes and importantly biodegradable as well as biocompostable. PHA production utilizing commercial … Show more

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2024

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Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes

Ladhari,

Vu,

Saidi

et al. 2024

Polymer Engineering & Sci

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The rise of antibiotic‐resistant microbes and concerns over non‐biodegradable waste highlight the need for innovative materials with integrated functionalities that address these critical issues. In this study, we synthesized poly(3hydroxybutyrate) (PHB) electrospun nanofibers blended with gelatin (Ge) and loaded with photoactive AgTiO2 nanoparticles with improved mechanical and biological properties. Biological tests revealed excellent antibacterial activity of the prepared membrane, with efficiency exceeding 99% against Escherichia coli and 95% against Staphylococcus epidermidis after 90 and 60 min of exposure to low‐power commercial LED lights, respectively. Filtration studies using a dead‐end stainless‐steel cell reveal that both bacteria are eliminated (>99% after one filtration cycle). Results of the viability test showed that blending PHB with Ge improves the membrane's anti‐biofouling properties. The membranes were also characterized using SEM and EDX mapping techniques for morphological and elemental analysis, DSC and TGA to evaluate thermal properties and crystallinity, and FTIR to confirm chemical structure. Moreover, the electrospun membranes exhibited enhanced mechanical properties with the addition of Ge. PHB/Ge/3 wt% AgTiO2 sample showed 2.2 times better tensile strength and 1.89 times improved Young's modulus compared to PHB membranes. Finally, the breakdown of PHB/Ge/AgTiO2 membranes occurred progressively over only 8 weeks, showing the membranes' green and sustainable nature.Highlights Antibacterial efficacy of 99% against E. coli and 95% against S. epidermidis. Microfiltration efficiency >99% achieved in one filtration cycle. Mechanical strength is enhanced by 2.2 times with the addition of gelatin. Effective anti‐biofouling is confirmed by CLSM and SEM tests. Membranes degraded within 8 weeks in natural soil.

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Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes

Ladhari,

Vu,

Saidi

et al. 2024

Polymer Engineering & Sci

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Recent Development in Urban Polyhydroxyalkanoates Biorefineries

Cited by 1 publication

References 262 publications

Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes

Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes

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Recent Development in Urban Polyhydroxyalkanoates Biorefineries

Cited by 1 publication

References 262 publications

Mechanical and antimicrobial properties of green and photoactive AgTiO2/poly(3hydroxybutyrate) (PHB) electrospun membranes

Mechanical and antimicrobial properties of green and photoactive AgTiO2/poly(3hydroxybutyrate) (PHB) electrospun membranes

Contact Info

Product

Resources

About

Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes

Mechanical and antimicrobial properties of green and photoactive AgTiO₂/poly(3hydroxybutyrate) (PHB) electrospun membranes