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This edited work presents useful methods in experimenting in the area of Bioprocessing and Biotechnology. The four sections cover the area of Bioprocess, Whole Cells & Isolated Biocatalyst, Characterization of Biochemical Products and Cell Isolation & Culture. Its enable researchers to choose a suitable method and plan their experiments in details. The main focus of this book is to provide step by step method to young researchers, especially in the new research areas. Among the latest areas are the isolation of novel strain or enzyme by metagenomic approaches and taming procedure in the laboratories, development of novel, the cheap and non-toxic catalyst for biodiesel production, and production of micro-fibrillated cellulose. An updated method for well-known areas such as immobilization technology, biosensor, and polymerization was also presented. The book also covers in-silico methods such as MATLAB platform to ease researchers. Not to forget, the method in animal and plant culture is also discussed in detail. The book is written by chapter authors with much expertise in their fields. They have published multiple articles in the index listed journals. The topic of this book is particularly relevant to young researchers who are struggling to fine-tune their research and do not want to waste their time in optimizing the experiment set up.
This contributed volume, “Multifaceted Protocols in Biotechnology, Volume 2”, consists of multidisciplinary methods and techniques commonly used in biotechnology studies. There are two sections covered in this book – Ionic Liquid Related Techniques & Evergreen Biotechnology Techniques. A brief introduction supports each protocol to allow easy learning and implementation. The first section consists of three chapters covering studies in modern biotechnology focusing on the role of ionic liquid techniques in extracting secondary metabolites, enzyme stabilization and biomass processing. The second section covers evergreen methodologies. It comprises five chapters covering topics on microcarrier technology for cell culture; Polymerase Chain Reaction for non-halal sources detection in food; ELISA for biomarker identification; gamma ray-induced mutagenesis for enhancing microbial fuel cells; and the effect of temperature on antibacterial activity of Carica papaya seed extract. This book will be useful to graduate students, researchers, academics, and industry practitioners working in the area of biotechnology
Sensory Polymers: From their Design to Practical Applications discusses recent developments in the field of sensory polymers and showcases the potential applications of these materials in food control and security, civil security, the biomedical field, environmental control and remediation, industrial control of chemicals, and more. Written by worldwide experts in the field, chapters provide in-depth knowledge on several different polymer sensors and their response to different stimuli, which makes this book a valuable resource for researchers and advanced students in polymer science, materials science, and chemistry, as well as those interested on sensing applications and chemical sensory systems, including industry R&D. - Discusses the foundation of sensory polymers, from material design to development and production - Explores state-of-the-art applications in environmental control, biomedicine, sensing, the chemical industry, and food science - Provides perspectives and future applications of polymer chemosensors
SCIENCE AND ENGINEERING OF POLYPHENOLS A groundbreaking synthesis of rich and varied polyphenol research Polyphenols are a class of compounds, found naturally in fruits and vegetables, whose flexibility and ubiquity give them a vast range of applications in pharmaceutical, environmental, and biological research and development. They play a role in diagnosing and preventing diseases from diabetes to Parkinson’s to Alzheimer’s and have been integral in food preservation. The field of polyphenols research has the potential to touch virtually every area of organic production. Science and Engineering of Polyphenols provides a current and comprehensive overview of this field of research and its latest developments. Long overdue as a ‘state of the field’ synthesis for an area of study that has seen rapid development in recent years, this book promises to be a milestone. Science and Engineering of Polyphenols readers will also find: Treatment of both natural and synthetic polyphenols Detailed discussion of topics including synthesis and characterization of polyphenols, electronic and molecular structure of polyphenols, and many more Supplementary material including websites of interest and updates on the latest research and development Science and Engineering of Polyphenols is ideal for scholars, industrialists, and policymakers in any of the myriad areas of academia and industry touched by polyphenol research.
This Microbiology Monographs volume covers the latest advances in laccase applications in bioremediation and waste valorisation. The first three chapters provide a comprehensive introduction to fungal and bacterial laccases (the two most important enzyme groups from an application viewpoint) and their practical use in bioremediation and lignocellulosic waste valorisation. Subsequent chapters discuss possible combinations of laccases and further potentially collaborating enzymes, and offer in-depth insights into laccase immobilisation for wastewater treatment and environmental biosensor applications of laccases. Lastly, the book addresses the quest for enzymes with improved and better-fitting properties, covering laccase engineering by directed and computational evolution, and novel enzymes from extreme environments. As such, it is a fascinating read for microbiologists in both industry and academia.
Sensing Tools and Techniques for COVID-19: Developments and Challenges in Analysis and Detection of Coronavirus helps readers understand the basic principles of sensor development. Sections give a brief overview of the physical and chemical properties of sensing tools and the basics of techniques. With recent advancements in sensing technology, various smart materials and techniques are now being employed for new purposes. In addition, biosensing devices can be tuned at the molecular level to perform better detection of COVID-19. This book covers the various approaches for the development and fabrication of biosensor systems for the analysis of the novel coronavirus. In addition, the book discusses the commercialization and standardization of biosensing technology, along with future perspectives on biosensor technologies used for the analysis and treatment of COVID-19. This book will serve as an up-to-date source of trusted information on biosensor tools and techniques for the analysis of COVID-19. - Provides an in-depth look at current sensing tools and devices and their applicability in healthcare - Demonstrates the different integration approaches for the development of biosensor systems, along with design and commercialization guidelines - Presents a strategic approach for the contact-less analysis of COVID-19
Conjugated Polymers for Next-Generation Applications, Volume One: Synthesis, Properties and Optoelectrochemical Devices describes the synthesis and characterization of varied conjugated polymeric materials and their key applications, including active electrode materials for electrochemical capacitors and lithium-ion batteries, along with new ideas of functional materials for next-generation high-energy batteries, a discussion of common design procedures, and the pros and cons of conjugated polymers for certain applications. The book's emphasis lies in the underlying electronic properties of conjugated polymers, their characterization and analysis, and the evaluation of their effectiveness for utilization in energy and electronics applications. This book is ideal for researchers and practitioners in the area of materials science, chemistry and chemical engineering. - Provides an overview of the synthesis and functionalization of conjugated polymers and their composites - Reviews important photovoltaics applications of conjugated polymeric materials, including their use in energy storage, batteries and optoelectronic devices - Discusses conjugated polymers and their application in electronics for sensing, bioelectronics, memory, and more
Biopolymers are becoming an increasingly important area of research as traditional chemical feedstocks run low and concerns about environmental impacts increase. One area of particular interest is their use for more sustainable development of metal nanoparticles. Biopolymer-Based Metal Nanoparticle Chemistry for Sustainability Applications, Volume 2 reviews key uses of biopolymers and biopolymer-based metal nanoparticles for a range of key sustainability-focused applications. After providing contextual examples of applications across the fields of food science, biomedicine and biochemistry, the book goes on to explore further sustainability-focused applications of Biopolymer-Based Metal Nanoparticles in such important areas as catalysis, environmental science, biosensing, and energy. - Provides an overview of biopolymer-based metal nanoparticles for a wide range of applications - Provides technological details on the synthesis of natural polymer-based metal nanoparticles - Explores the role of biopolymer-based metal nanoparticles for more sustainable catalytic processes
Foundational knowledge and practical approaches of an interesting catalyst class for greener and cleaner chemical synthesis Solid Base Catalysts provides insights and information on cutting-edge heterogeneous catalysis technologies and approaches of non-corrosive and easy-to-use solid catalysts that can replace conventional liquid catalysts that are known to pose operational problems. Edited by three highly qualified authors with contributions from experts in industry and academia, Solid Base Catalysts includes: Latest and most advanced studies in the characterization of solid catalysts, with applications in various organic transformations Versatile reaction types where solid catalysts can be used as well as the multidisciplinary nature of solid base catalyst research and its connections to other fields Multicomponent reactions for eco-compatible heterocyclic synthesis over solid catalysts and synthesis routes, experimental protocols, and other considerations for optimizing catalyst properties Advanced methodologies and applications for analyzing solid catalysts and challenges and future prospects in the field Solid Base Catalysts is a complete reference on the subject for researchers and professionals in materials science, green chemistry, surface chemistry, and chemical engineering.
This book highlights current trends and research advances in nanotechnology and its applications. It discusses the synthesis and characterization of nanomaterials / nanocomposites for novel applications in environmental monitoring and sustainability, and presents new findings on wastewater treatment technologies using nanofiltration membranes.