(EBOOK PDF)Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine 1st Edition by Hemen Sarma 1119671000 9781119671008 full chapters

Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine 1st Edition by Hemen Sarma – Ebook PDF Instant Download/Delivery: 1119671000, 9781119671008

Full download Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine 1st Edition after payment

Product details:

• ISBN 10:1119671000 

• ISBN 13:9781119671008

• Author:Hemen Sarma 

 Biosurfactants for a Sustainable Future
Explore the state-of-the-art in biosurfactant technology and its applications in environmental remediation, biomedicine, and biotechnology

Biosurfactants for a Sustainable Future explores recent developments in biosurfactants and their use in a variety of cutting-edge applications. The book opens a window on the rapid development of microbiology by explaining how microbes and their products are used in advanced medical technology and in the sustainable remediation of emerging environmental contaminants.

The book emphasizes the different techniques that are used for the production of biosurfactants from microorganisms and their characterization. Various aspects of biosurfactants, including structural characteristics, developments, production, bio-economics and their sustainable use in the environment and biomedicine, are addressed, and the book also presents metagenomic strategies to facilitate the discovery of novel biosurfactants producing microorganisms. Readers will benefit from the inclusion of:

A thorough introduction to the state-of-the-art in biosurfactant technology, techniques, and applications
An exploration of biosurfactant enhanced remediation of sediments contaminated with organics and inorganics
A discussion of perspectives for biomedical and biotechnological applications of biosurfactants
A review of the antiviral, antimicrobial, and antibiofilm potential of biosurfactants against multi-drug-resistant pathogens.
An examination of biosurfactant-inspired control of methicillin-resistant Staphylococcus aureus
Perfect for academic researchers and scientists working in the petrochemical industry, pharmaceutical industry, and in the agroindustry, Biosurfactants for a Sustainable Future will also earn a place in the libraries of scientists working in environmental biotechnology, environmental science, and biomedical engineering.

Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine 1st Table of contents:

 1 Introduction to Biosurfactants
1.1 Introduction and Historical Perspective
1.2 Micelle Formation
1.3 Average Aggregation Numbers
1.4 Packing Properties of Amphiphiles
1.5 Biosurfactants
1.6 Sophorolipids
1.7 Surfactin
1.8 Final Comments
Acknowledgement
References
2 Metagenomics Approach for Selection of Biosurfactant Producing Bacteria from Oil Contaminated Soil
2.1 Introduction
2.2 Metagenomics Application: A State‐of‐the‐Art Technique
2.3 Hydrocarbon‐Degrading Bacteria and Genes
2.4 Metagenomic Approaches in the Selection of Biosurfactant‐Producing Microbes
2.5 Metagenomics with Stable Isotope Probe (SIP) Techniques
2.6 Screening Methods to Identify Features of Biosurfactants
2.7 Functional Metagenomics: Challenge and Opportunities
2.8 Conclusion
Acknowledgements
References
3 Biosurfactant Production Using Bioreactors from Industrial Byproducts
3.1 Introduction
3.2 Significance of the Production of Biosurfactants from Industrial Products
3.3 Factors Affect Biosurfactant Production in Bioreactor
3.4 Microorganisms
3.5 Bacterial Growth Conditions
3.6 Substrate for Biosurfactant Production
3.7 Conclusions
Acknowledgement
References
4 Biosurfactants for Heavy Metal Remediation and Bioeconomics
4.1 Introduction
4.2 Concept of Surfactant and Biosurfactant for Heavy Metal Remediation
4.3 Mechanisms of Biosurfactant–Metal Interactions
4.4 Substrates Used for Biosurfactant Production
4.5 Classification of Biosurfactants
4.6 Types of Biosurfactants
4.7 Factors Influencing Biosurfactants Production
4.8 Strategies for Commercial Biosurfactant Production
4.9 Application of Biosurfactant for Heavy Metal Remediation
4.10 Bioeconomics of Metal Remediation Using Biosurfactants
4.11 Conclusion
References
5 Application of Biosurfactants for Microbial Enhanced Oil Recovery (MEOR)
5.1 Energy Demand and Fossil Fuels
5.2 Microbial Enhanced Oil Recovery (MEOR)
5.3 Mechanisms of Surfactant Flooding
5.4 Biosurfactants: An Alternative to Chemical Surfactants to Increase Oil Recovery
5.5 Biosurfactant MEOR: Laboratory Studies
5.6 Field Assays
5.7 Current State of Knowledge, Technological Advances, and Future Perspectives
Acknowledgements
References
6 Biosurfactant Enhanced Sustainable Remediation of Petroleum Contaminated Soil
6.1 Introduction
6.2 Microbial‐Assisted Bioremediation of Petroleum Contaminated Soil
6.3 Hydrocarbon Degradation and Biosurfactants
6.4 Soil Washing Using Biosurfactants
6.5 Combination Strategies for Efficient Bioremediation
6.6 Biosurfactant Mediated Field Trials
6.7 Limitations, Strategies, and Considerations of Biosurfactant‐Mediated Petroleum Hydrocarbon Degradation
6.8 Conclusion
References
7 Microbial Surfactants are Next‐Generation Biomolecules for Sustainable Remediation of Polyaromatic Hydrocarbons
7.1 Introduction
7.2 Biosurfactant‐Enhanced Bioremediation of PAHs
7.3 Microorganism’s Adaptations to Enhance Bioavailability
7.4 Influences of Micellization on Hydrocarbons Access
7.5 Accession of PAHs in Soil Texture
7.6 The Negative Impact of Surfactant on PAH Degradations
7.7 Conclusion and Future Directions
References
8 Biosurfactants for Enhanced Bioavailability of Micronutrients in Soil
8.1 Introduction
8.2 Micronutrient Deficiency in Soil
8.3 Factors Affecting the Bioavailability of Micronutrients
8.4 Effect of Micronutrient Deficiency on the Biota
8.5 The Role of Surfactants in the Facilitation of Micronutrient Biosorption
8.6 Surfactants
8.7 Conclusion
References
9 Biosurfactants
9.1 Nanoparticles
9.2 Synthesis of Nanoparticles
9.3 Biosurfactants
9.4 Biosurfactant Mediated Nanoparticles Synthesis
9.5 Challenges in Environmental Applications of Nanoparticles and Future Perspectives
Acknowledgements
References
10 Green Surfactants
10.1 Environmental Pollution and World Health
10.2 Amino Acid‐Derived Surfactants
10.3 Biosurfactants
10.4 Antimicrobial Resistance
10.5 Catanionic Vesicles
10.6 Biosurfactant Functionalization: A Strategy to Develop Active Antimicrobial Compounds
10.7 Conclusions
References
11 Antiviral, Antimicrobial, and Antibiofilm Properties of Biosurfactants
11.1 Introduction
11.2 Antimicrobial Properties
11.3 Biofilms
11.4 Antiviral Properties
11.5 Therapeutic and Pharmaceutical Applications of Biosurfactants
11.6 Biosurfactants in the Food Industry: Quality of the Food
11.7 Conclusions
Acknowledgements
References
12 Biosurfactant‐Based Antibiofilm Nano Materials
12.1 Introduction
12.2 Emerging Biofilm Infections
12.3 Challenges and Recent Advancement in Antibiofilm Agent Development
12.4 Impact of Extracellular Matrix and Their Virulence Attributes
12.5 Role of Indwelling Devices in Emerging Drug Resistance
12.6 Role of Physiological Factors (Growth Rate, Biofilm Age, Starvation)
12.7 Impact of Efflux Pump in Antibiotic Resistance Development
12.8 Nanotechnology‐Based Approaches to Combat Biofilm
12.9 Biosurfactants: A Promising Candidate to Synthesize Nanomedicines
12.10 Synthesis of Nanomaterials
12.11 Self‐Nanoemulsifying Drug Delivery Systems (SNEDDs)
12.12 Biosurfactant‐Based Antibiofilm Nanomaterials
12.13 Conclusions and Future Prospects
Acknowledgement
References
13 Biosurfactants from Bacteria and Fungi
13.1 Introduction
13.2 Biomedical Applications of Biosurfactants: Recent Developments
13.3 Conclusion
Acknowledgements
References
14 Biosurfactant‐Inspired Control of Methicillin‐Resistant Staphylococcus aureus (MRSA)
14.1 Staphylococcus aureus, MRSA, and Multidrug Resistance
14.2 Biosurfactant Types Commonly Utilized Against S. aureus and Other Pathogens
14.3 Properties of Efficient Biosurfactants Against MRSA and Bacterial Pathogens
14.4 Uses for Biosurfactants
14.5 Biosurfactants Illustrating Antiadhesive Properties against MRSA Biofilms
14.6 Biosurfactants with Antibiofilm and Antimicrobial Properties
14.7 Media, Microbial Source, and Culture Conditions for Antibiofilm and Antimicrobial Properties
14.8 Novel Synergistic Antimicrobial and Antibiofilm Strategies Against MRSA and S. aureus
14.9 Novel Potential Mechanisms of Antimicrobial and Antibiofilm Properties
14.10 Conclusion
References
15 Exploiting the Significance of Biosurfactant for the Treatment of Multidrug‐Resistant Pathogenic Infections
15.1 Introduction
15.2 Microbial Pathogenesis and Biosurfactants
15.3 Bio‐Removal of Antibiotics Using Probiotics and Biosurfactants Bacteria
15.4 Antiproliferative, Antioxidant, and Antibiofilm Potential of Biosurfactant
15.5 Wound Healing Potential of Biosurfactants
15.6 Conclusion and Future Prospects
References
16 Biosurfactants Against Drug‐Resistant Human and Plant Pathogens
16.1 Introduction
16.2 Environmental Impact of Antibiotics
16.3 Pathogenicity of Antibiotic‐Resistant Microbes on Human and Plant Health
16.4 Role of Biosurfactants in Combating Antibiotic Resistance: Challenges and Prospects
16.5 Conclusion
Acknowledgements
References
17 Surfactant‐ and Biosurfactant‐Based Therapeutics
17.1 Introduction
17.2 Determinants and Forms of Surfactants
17.3 Structural Forms of Surfactants
17.4 Drug Delivery Systems
17.5 Different Types of Biosurfactants Used for Drug Delivery
17.6 Conclusions
References
18 The Potential Use of Biosurfactants in Cosmetics and Dermatological Products
18.1 Introduction
18.2 Properties of Biosurfactants
18.3 Biosurfactant Classifications and Potential Use in Cosmetic Applications
18.4 Dermatological Approach of Biosurfactants
18.5 Cosmetic Formulation with Biosurfactant
18.6 Safety Measurement Taken for Biosurfactant Applications in Dermatology and Cosmetics
18.7 Conclusion and Future Perspective
Acknowledgement
References
19 Cosmeceutical Applications of Biosurfactants
19.1 Introduction
19.2 Cosmeceutical Properties of Biosurfactants
19.3 Other Activities
19.4 Application Prospects
19.5 Biosurfactants in the Market
19.6 Challenges and Conclusion
References
20 Biotechnologically Derived Bioactive Molecules for Skin and Hair‐Care Application
20.1 Introduction
20.2 Surfactants in Cosmetic Formulation
20.3 Biosurfactants in Cosmetic Formulations
20.4 Conclusion
References
21 Biosurfactants as Biocontrol Agents Against Mycotoxigenic Fungi
21.1 Mycotoxins
21.2 Aflatoxins
21.3 Deoxynivalenol
21.4 Fumonisins
21.5 Ochratoxin A
21.6 Patulin
21.7 Zearalenone
21.8 Prevention and Control of Mycotoxins
21.9 Biosurfactants
21.10 Glycolipids
21.11 Lipopeptides
21.12 Antifungal Activity of Glycolipid Biosurfactants
21.13 Antifungal and Antimycotoxigenic Activity of Lipopeptide Biosurfactants
21.14 Opportunities and Perspectives
Acknowledgements
References
22 Biosurfactant‐Mediated Biocontrol of Pathogenic Microbes of Crop Plants
22.1 Introduction
22.2 Biosurfactant: Properties and Types
22.3 Biosurfactant in Agrochemical Formulations for Sustainable Agriculture
22.4 Biosurfactants for a Greener and Safer Environment
22.5 Conclusion
References
Index
End User License Agreement

People also search for Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine 1st:

biosurfactants for a sustainable future: production
 
bio sustainable
 
biosur foundation
 
biofuel sustainability
 
biotechnology sustainability

Tags:

Biosurfactants for a,Sustainable Future,Hemen Sarma