Simple nanobiohybrid for catalytic disintegration of toxic water pollutants
World population is increasing day by day, which is calculated of about 80 million/year and total water demand of this huge population is almost 64 billion cubic meters/year [1, 2]. Moreover, industrialization and urbanization consistently polluted our existing water resources by adding notorious to...
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| Main Authors: | , , |
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| Format: | Conference or Workshop Item |
| Language: | English |
| Published: |
2015
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| Subjects: | |
| Online Access: | http://eprints.um.edu.my/13402/1/simple_nanobiohybrid.pdf http://eprints.um.edu.my/13402/ |
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| Summary: | World population is increasing day by day, which is calculated of about 80 million/year and total water demand of this huge population is almost 64 billion cubic meters/year [1, 2]. Moreover, industrialization and urbanization consistently polluted our existing water resources by adding notorious toxic pollutants, leading to
simultaneously decrease in clean and safe water availability globally. Therefore, it is anticipating that about 1.8 billion people will compel to survive on Earth under water scarcity by 2025 [3].Conventional water purification technologies are time consuming, expensive, and have low
affinity and efficiency to newly emerging anthropogenic water pollutants [4J. The paradigm compelled scientific community to spot light the issue and develop novel technology for ensuring clean and safe water availability to all. Among the many promises of new water purification
technology, here we propose a combination of nanomaterial (Carbon nanotube) and biomolecule (Enzyme) or simply 'NanoBiohybrid' catalyst can be a judicious choice for developing a novel water purification technology for disintegrating wide range of water pollutants. In addition, the potentiality. of this NanoBiohybrid catalyst in both sensing and mitigating of organic water pollutants will be highlighted. The technology is a perfect example of multi-scale development and covers most of the challenges of existing water purification technology. We hope this "one pot" combination route can tackle a diverse range of water contaminants in near future. |
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