Samavia Batool scite author profile

Industrial effluent often contains the significant amount of hexavalent chromium and synthetic dyes. The discharge of wastewater without proper treatment into water streams consequently enters the soil and disturbs the aquatic and terrestrial life. A range of wastewater treatment technologies have been proposed which can efficiently reduce both Cr(VI) and azo dyes simultaneously to less toxic form such as biodegradation, biosorption, adsorption, bioaccumulation, and nanotechnology. Rate of simultaneous reduction of Cr(VI) and azo dyes can be enhanced by combining different treatment techniques. Utilization of synergistic treatment is receiving much attention due to its enhanced efficiency to remove Cr(VI) and azo dye simultaneously. This review evaluates the removal methods for simultaneous removal of Cr(VI) and azo dyes by nanomicrobiology, surface engineered nanoparticles, and nanophotocatalyst. Sorption mechanism of biochar for heavy metals and organic contaminants is also discussed. Potential microbial strains capable of simultaneous removal of Cr(VI) and azo dyes have been summarized in some details as well.

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India–Pakistan Trade: A Case Study of the Pharmaceutical Sector

Ahmed

Batool

2016

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Private adaptation in semi-arid lands: a tailored approach to ‘leave no one behind’

et al. 2020

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Non-technical abstract Globally, semi-arid lands (SALs) are home to approximately one billion people, including some of the poorest and least food secure. These regions will be among the hardest hit by the impacts of climate change. This article urges governments and their development partners to put SAL inhabitants and their activities at the heart of efforts to support adaptation and climate resilient development, identifying opportunities to capitalize on the knowledge, institutions, resources and practices of SAL populations in adaptation action.

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Samavia Batool

Effect of azo dye on ammonium oxidation process and ammonia-oxidizing bacteria (AOB) in soil

Removal of organochlorine pesticides using zerovalent iron supported on biochar nanocomposite from Nephelium lappaceum (Rambutan) fruit peel waste

Study of Modern Nano Enhanced Techniques for Removal of Dyes and Metals

India–Pakistan Trade: A Case Study of the Pharmaceutical Sector

Private adaptation in semi-arid lands: a tailored approach to ‘leave no one behind’

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