A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Nanobioremediation Technologies for Sustainable Environment
Abstract Hybrid technologies like nanobioremediation are significant in transforming and detoxifying pollutants which harm the ecosystem. In situ or ex situ it has the potential for large scale clean- up activities with reduced cost and minimal harmful byproducts. Here five nanoscale metallic biosynthesized particles formed the topic of study. Zn, Ag, Au, Fe and Cu particles can be biosynthesized using plant extracts, bacteria, fungi and algae. The potential of these metallic nanoparticles to degrade and remedy various contaminants in the environment has been researched widely. A combination of biosynthesis and remediation lead to sustainable development and ultimately a sustained environment.
Nanobioremediation Technologies for Sustainable Environment
Abstract Hybrid technologies like nanobioremediation are significant in transforming and detoxifying pollutants which harm the ecosystem. In situ or ex situ it has the potential for large scale clean- up activities with reduced cost and minimal harmful byproducts. Here five nanoscale metallic biosynthesized particles formed the topic of study. Zn, Ag, Au, Fe and Cu particles can be biosynthesized using plant extracts, bacteria, fungi and algae. The potential of these metallic nanoparticles to degrade and remedy various contaminants in the environment has been researched widely. A combination of biosynthesis and remediation lead to sustainable development and ultimately a sustained environment.
Nanobioremediation Technologies for Sustainable Environment
Sherry Davis, A. (author) / Prakash, P. (author) / Thamaraiselvi, K. (author)
2017-01-01
21 pages
Article/Chapter (Book)
Electronic Resource
English
Nanobioremediation of Soils Contaminated with Lindane: Overview and Research Challenges
| Springer Verlag | 2020
| Emerald Group Publishing | 2022