Poushpi Dwivedi, Shahid S. Narvi, Ravi Prakash Tewari, Dhanesh Tiwary
Nanobiotechnology for Safe Bioactive Nanobiomaterials (eBook, PDF)
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Poushpi Dwivedi, Shahid S. Narvi, Ravi Prakash Tewari, Dhanesh Tiwary
Nanobiotechnology for Safe Bioactive Nanobiomaterials (eBook, PDF)
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This book discusses antimicrobial, self-sterilizing silver/polymer nanocomposites, via phytomass (plant + biomass) conversion and fabrication of silver nanoparticles (AgNPs) including novel bioengineering of polyfunctional metallic nanostructures other than Ag,and life cycle assessment of the synthesized nanostructures.
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This book discusses antimicrobial, self-sterilizing silver/polymer nanocomposites, via phytomass (plant + biomass) conversion and fabrication of silver nanoparticles (AgNPs) including novel bioengineering of polyfunctional metallic nanostructures other than Ag,and life cycle assessment of the synthesized nanostructures.
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Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 199
- Erscheinungstermin: 2. September 2022
- Englisch
- ISBN-13: 9781000645552
- Artikelnr.: 64309161
- Verlag: Taylor & Francis
- Seitenzahl: 199
- Erscheinungstermin: 2. September 2022
- Englisch
- ISBN-13: 9781000645552
- Artikelnr.: 64309161
Dr. Poushpi Dwivedi obtained her BSc (Hons.) in Chemistry (2001), MSc in Chemistry (2003) from Banaras Hindu University, Varanasi, India, and PhD in Chemistry (2015) from Motilal Nehru National Institute of Technology Allahabad, Prayagraj, India. She has been a DST-SERB national post-doctoral fellow at the Department of Chemistry, Indian Institute of Technology (Banaras Hindu University), Varanasi, India (2017-2019). She has also worked as project fellow (2004) and post-doctoral fellow (2017) in the Department of Chemical Engineering & Technology, Indian Institute of Technology (Banaras Hindu University), Varanasi, India; as guest faculty (2016) in the Department of Chemistry, University of Allahabad, Prayagraj, India. She is presently an 'assistant professor of Chemistry in the Department of Chemistry (UG & PG), Belda College, Vidyasagar University, Paschim Medinipur, India. Her many publications consist of journal papers, book chapters as well as national and international conference proceedings.
Prof. Shahid S. Narvi is a professor in the Chemistry Department, Motilal Nehru National Institute of Technology Allahabad, India, working as a faculty member for the last 234 years. He graduated with BSc (Hons.) in Chemistry (1977) and MSc in Chemistry (1979) from Aligarh Muslim University, Aligarh, India. He received his PhD in Chemistry (1985) from University of Roorkee, Roorkee, (Now IIt Rooekee), India. He has many publications with a lot of research and teaching experience together with supervising MTech and PhD research work.
Prof. Ravi Prakash Tewari is a professor in Applied Mechanics Department, Motilal Nehru National Institute of Technology Allahabad, India, working as a faculty for more than 15 years. He graduated with a BE in Mechanical Engineering (1990) from Madan Mohan Malviya Engineering College, Gorakhpur, India. He received his M Tech (1993) and PhD (1999) in Biomedical Engineering from Institute of Technology, Banaras Hindu University, Varanasi, India. Besides having myraid publications, he has extensive experience in research and teaching as well as in supervising MTech and PhD research work.
Prof. Dhanesh Tiwary is a professor and head of the Department of Chemistry, Indian Institute of Technology (Banaras Hindu University), Varanasi, India, working there as a faculty member for the last 16 years. He graduated with a BSc (Hons.) in Chemistry (1984), postgraduated with a MSc in Chemistry (1986) and obtained his PhD in Chemistry (1992), from Banaras Hindu University, Varanasi, India. He has more than 21 years of teaching experience with 7 years of national and overseas postdoctoral experience. He has numerous publications to his credit and extensive experience in supervising MTech and PhD research work.
Prof. Shahid S. Narvi is a professor in the Chemistry Department, Motilal Nehru National Institute of Technology Allahabad, India, working as a faculty member for the last 234 years. He graduated with BSc (Hons.) in Chemistry (1977) and MSc in Chemistry (1979) from Aligarh Muslim University, Aligarh, India. He received his PhD in Chemistry (1985) from University of Roorkee, Roorkee, (Now IIt Rooekee), India. He has many publications with a lot of research and teaching experience together with supervising MTech and PhD research work.
Prof. Ravi Prakash Tewari is a professor in Applied Mechanics Department, Motilal Nehru National Institute of Technology Allahabad, India, working as a faculty for more than 15 years. He graduated with a BE in Mechanical Engineering (1990) from Madan Mohan Malviya Engineering College, Gorakhpur, India. He received his M Tech (1993) and PhD (1999) in Biomedical Engineering from Institute of Technology, Banaras Hindu University, Varanasi, India. Besides having myraid publications, he has extensive experience in research and teaching as well as in supervising MTech and PhD research work.
Prof. Dhanesh Tiwary is a professor and head of the Department of Chemistry, Indian Institute of Technology (Banaras Hindu University), Varanasi, India, working there as a faculty member for the last 16 years. He graduated with a BSc (Hons.) in Chemistry (1984), postgraduated with a MSc in Chemistry (1986) and obtained his PhD in Chemistry (1992), from Banaras Hindu University, Varanasi, India. He has more than 21 years of teaching experience with 7 years of national and overseas postdoctoral experience. He has numerous publications to his credit and extensive experience in supervising MTech and PhD research work.
1. Nanobiotechnology towards the Next Generation Antimicrobial Materials
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles: Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle Assessment
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles: Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle Assessment
1. Nanobiotechnology towards the Next Generation Antimicrobial Materials
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles:
Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface
Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite
Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened
Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite
Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic
Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle
Assessment
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles:
Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface
Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite
Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened
Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite
Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic
Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle
Assessment
1. Nanobiotechnology towards the Next Generation Antimicrobial Materials
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles: Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle Assessment
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles: Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle Assessment
1. Nanobiotechnology towards the Next Generation Antimicrobial Materials
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles:
Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface
Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite
Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened
Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite
Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic
Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle
Assessment
2. Enumerate Investigations
3. Phytochemicals-Aided Conversion to Silver Nanoparticles:
Nanobiotechnology
4. Biocompatible Bioactive Silver/Chitosan (Ag/CS) Nanocomposite Surface
Coating System: Nanobiotechnological Synthesis
5. Bioactive Silver/Chitosan-g-Poly Acrylamide (Ag/CS-g-PAAm) Nanocomposite
Hydrogel as Super Absorbent Polymeric (SAP) Material: Phytomass Intervened
Value Conversion
6. Bioactive Silver/Chitosan/Poly Vinyl Chloride (Ag/CS/PVC) Nanocomposite
Blend: Phytomass Enabled
7. Prospects of Safe Functional Nanomaterials in the Era of Virus Dominion
8. Nanobiotechnological Biomass Conversion into Other Metallic
Nanostructures
9. Environmental Fate of Safe Green Bioactive Nanobiomaterials: Life Cycle
Assessment