Your search keyword '"Akhtar, Javeed"' showing total 3 results

1. Low-temperature synthesis of hierarchical structures of copper oxide and their superior biological activity.

Author

Naz, Sania, Akhtar, Javeed, Muhammad Fayyaz Chaudhary, and Zia, Muhammad

Subjects

*COPPER oxide, *X-ray diffraction, *PROTEIN kinase inhibitors, *ANTIFUNGAL agents, *PHARMACEUTICAL industry

Abstract

In this work, the authors report a facile low-temperature wet-chemical route to prepare morphology-tailored hierarchical structures (HS) of copper oxide. The preparation of copper oxide collides was carried out using varying concentrations of copper acetate and a reducing agent at a constant temperature of 50°C. The prepared HS of CuO were characterised by powdered X-rays diffraction that indicates phase pure having monoclinic structures. The morphology was further confirmed by field-emission scanning electron microscope. It reveals a difference in shape and size of copper oxide HS by changing the concentration of reactants. In order to evaluate the effect of H2O2 on CuO NPs, the prepared CuO are modified by treatment with H2O2. In general trend, CuOH2O2 collide showed enhanced protein kinase inhibition, antibacterial (maximum zone 16.34 mm against Staphylococcus aureus) and antifungal activities in comparison to unmodified CuO collides. These results reveal that CuO HS exhibit antimicrobial properties and can be used as a potential candidate in pharmaceutical industries. [ABSTRACT FROM AUTHOR]

Published

2018

2. Synthesis of Ag-NPs impregnated cellulose composite material: its possible role in wound healing and photocatalysis.

Author

Ali, Attarad, Haq, Ihsan Ul, Akhtar, Javeed, Sher, Muhammad, Ahmed, Naveed, and Zia, Muhammad

Subjects

CELLULOSE, NANOSTRUCTURED materials synthesis, SILVER nanoparticles, ANTI-infective agents, WOUND healing, PHOTOCATALYSIS, STAPHYLOCOCCUS aureus, ESCHERICHIA coli, BIOREMEDIATION

Abstract

Cellulose is the natural biopolymer normally used as supporting agent with enhanced applicability and properties. In present study, cellulose isolated from citrus waste is used for silver nanoparticles (Ag-NPs) impregnation by a simple and reproducible method. The Ag-NPs fabricated cellulose (Ag-Cel) was characterised by powder X-rays diffraction, Fortier transform infrared spectroscopy and scanning electron microscopy. The thermal stability was studied by thermo-gravimetric analysis. The antibacterial activity performed by disc diffusion assay reveals good zone of inhibition against Staphylococcus aureus and Escherichia coli by Ag-Cel as compared Ag-NPs. The discs also displayed more than 90% reduction of S. aureus culture in broth within 150 min. The Ag-Cel discs also demonstrated minor 2,2-diphenyl 1-picryl-hydrazyl radical scavenging activity and total reducing power ability while moderate total antioxidant potential was observed. Ag-Cel effectively degrades methylene-blue dye up to 63.16% under sunlight irradiation in limited exposure time of 60 min. The Ag-NPs impregnated cellulose can be effectively used in wound dressing to prevent bacterial attack and scavenger of free radicals at wound site, and also as filters for bioremediation and wastewater purification. [ABSTRACT FROM AUTHOR]

Published

2017

3. Management of citrus waste by switching in the production of nanocellulose.

Author

Naz, Sania, Ahmad, Naveed, Akhtar, Javeed, Ahmad, Nasir Mehmood, Ali, Attarad, and Zia, Muhammad

Subjects

CITRUS fruit industry, CELLULOSE, CARBON nanotubes, WASTE management, SCANNING electron microscopy

Abstract

Citrus fruit processing industries produce a vast quantity of waste materials as peel and pulp that are not handled properly. In present study, waste generated from citrus has been used for extraction of cellulose and nanocellulose. The aggregated cellulose, derived after alkaline treatment, was acid hydrolysed; resulted in reduction of the size of cellulose fibre. The cellulose showed amorphous structure revealed by X-ray diffraction analysis. Scanning electron microscopy analysis explained densely packed structure of nanocellulose. High magnification revealed break points in cellulose fibre due to acidic treatment; looked like carbon nanotubes. The simple solubility test demonstrated that different solvents had different effects on the dissolution of nanocellulose. The study reveals that citrus peel is also a good candidate of cellulose that can be utilised for different applications. [ABSTRACT FROM AUTHOR]

Published

2016