Nano-Bioremediation-Reference-Cited by-同舟云学术

Nano-Bioremediation

Published:2022 Issue: Volume: Page:135-149
ISSN:
Container-title:Research Anthology on Emerging Techniques in Environmental Remediation
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Author:

Tripathi Sandeep¹,Sanjeevi R.¹,Anuradha J.¹,Chauhan Dushyant Singh¹,Rathoure Ashok K.²

Affiliation:

1. NIMS University, India

2. Independent Researcher, India

Abstract

The functional aspect of nanotechnology (NBT) is driven either to accelerate the performance of materials and/or to reduce the quantity of materials that are used for the purpose. Most significantly, its potential attribute to the environment includes the treatment and remediation, sensing and detection, and pollution prevention. In general nano-bio remediation (NBR) involves the use of nano-materials either in in-situ (in place), or ex-situ (off-place) treatment of contaminated materials. To accomplish this, the elemental or zero-valent metals and like materials in nano-form (1-100 nm) have been applied as an instinctive need to embrace sustainable environment. The use of nanomaterials initially reduces the biodegradable contaminants and then it promotes to achieve the standard levels. Thus, the role of nano-materials could be an efficient, effective approach to remediate the environmental contaminant sustainably. However, further research is required to record the detailed fate of the nano-materials that are used in environment remediation.

Publisher

IGI Global

Reference49 articles.

1. Abbasi, S.A., Abbasi, T., & Anuradha, J. (2012). A process for synthesis of metal nanoparticles from aquatic weeds. Off. J. Patent Office. Application No.458/CHE/2012A, p.6184.

2. Abbasi, S.A., Abbasi, T., Anuradha, J., Neghi, N., Prathiba, S., & Ganaie, S.U. (2011). Gainful utilization of four otherwise worthless and problematic weeds for silver nanoparticle synthesis. Off. J. Patent Office. Application No.2175/CHE/2011A, 11869.

3. Biomimetic Synthesis of Nanoparticles Using Aqueous Extracts of Plants (Botanical Species)

4. Nanotechnology and its potential in revolutionizing the pollution control scenario;T.Abbasi;J. Institution of Public Health Engineers, India,2009

5. Utilization of the terrestrial weed guduchi (Tinosporacordifolia) in clean-green synthesis of gold nanoparticles.;T.Abbasi;Nanoscience and Technology,2014

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