|1."Biocatalysis: From Discovery to Application (Springer Desktop Editions in Chemistry)" by W D Fessner|
“Biocatalysis: From Discovery to Application (Springer Desktop Editions in Chemistry)” Book Review: This is a comprehensive book designed for both students and professionals interested in the field. It covers the entire spectrum of biocatalysis, focusing on catalytic procedures that offer profitable and selective processes in organic synthesis. The book highlights the use of enzymes for preparing enantiomerically pure compounds due to their high selectivity and environmentally friendly reaction conditions. It explains the discovery of novel enzymes through modern screening and evolution techniques. The book also explores immunological approaches and immobilization techniques for technical processes. Written in a student-friendly language, each chapter includes practical examples and various question types to reinforce understanding. This book is a valuable resource for anyone seeking to delve into the fascinating world of biocatalysis.
|2."Biocatalysis (Van Nostrand Reinhold Electrical/Computer Science and Engineering Series)" by D A Abramowicz|
“Biocatalysis (Van Nostrand Reinhold Electrical/Computer Science and Engineering Series)” Book Review: This textbook is designed for graduate students studying biology, computer science, and engineering. It provides information about complex structures in a specific type of organic solvent. The book is valuable and engaging, with features like a subject index and chapter summaries. The final chapter discusses an important aspect: why enzymes that convert carbohydrates may not work well in solvents without water unless the product is less preferred than the starting material. The book is written in a way that is easy for students to understand. It primarily focuses on how enzymes can be used to make special types of organic chemicals. Students interested in this field will find this book beneficial and interesting.
|3."Enzyme Biocatalysis: Principles and Applications" by Andrés Illanes|
“Enzyme Biocatalysis: Principles and Applications” Book Review: The purpose of this book is to provide reliable information about designing enzymatic reactions based on kinetic principles. It is a reference textbook designed for graduate students in applied biology, chemical engineering, and biochemical engineering. The book covers the potentials and limitations of biocatalysis, especially in recent applications for organic synthesis processes. It is also suitable for undergraduate students with formal training in organic chemistry, biochemistry, thermodynamics, and chemical reaction kinetics. The book explains the basic principles of enzyme structure and function and covers topics like reactor design for soluble and immobilized enzymes. The final chapter includes case studies of real-life biocatalytic processes. The book is organized systematically and provides solved examples to help illustrate the concepts.
|4."Green Polymer Chemistry: Biobased Materials and Biocatalysis (ACS Symposium Series)" by H N Cheng and Richard A Gross|
“Green Polymer Chemistry: Biobased Materials and Biocatalysis (ACS Symposium Series)” Book Review: This book is a collection of important research in the field of green chemistry. It is designed for scientists, engineers, and students who are interested in green polymer chemistry. This includes chemists, biochemists, material scientists, and chemical engineers. The book focuses on chemical products and processes that aim to reduce or eliminate the use of harmful substances. It extends green chemistry principles to polymer science and engineering. The book covers various topics such as sustainability, reducing dependence on petroleum, and creating environmentally friendly products and processes. It includes advances in biobased feedstock, green reactions, processing methods, and polymeric products. It serves as both a textbook for courses on green chemistry and a reference book for researchers. It also provides specific information on biocatalysis and biobased materials.
|5."Biocatalysis in Organic Synthesis 3" by Kurt Faber|
“Biocatalysis in Organic Synthesis 3” Book Review: This comprehensive textbook consists of three volumes on biocatalysis in organic synthesis. It provides a broad and up-to-date overview of enzymatic methods for making organic compounds. The book is aimed at researchers and professionals in the field of organic synthesis. It includes reviews of organic transformations conducted with the help of enzymes, along with practical experimental procedures. The book covers various types of reactions performed using biocatalysis, such as enzyme-catalyzed dihydroxylation and alkane oxidation. It explains important concepts like oxidations of alcohols, carbonyl compounds, and heteroatoms. The book also explores the application of biocatalysts in total synthesis, cascade reactions, and large-scale industrial processes. It concludes with discussions on emerging advanced fundamentals. Each chapter includes a summary, introduction, and conclusion, and offers solved examples and exercises for better understanding.
|6."Problem Solving in Enzyme Biocatalysis" by Andrés Illanes and Lorena Wilson|
“Problem Solving in Enzyme Biocatalysis” Book Review: This comprehensive textbook explains how enzyme biocatalysis has expanded from being used in fields like food, detergent, and leather applications to its application in the pharmaceutical, fine-chemicals, and environmental management sectors. It also discusses new uses in animal feed, biofuel production, and human and animal therapy. The book focuses on mathematical expressions related to enzyme kinetics, material balances, and mass transfer limitations. Each chapter provides a concise overview of the topic, with solved problems to illustrate problem-solving techniques and key concepts. Supplementary questions and answers are included for self-assessment. This book can be used as a reference for students studying chemical and biochemical engineering, as well as biochemists and chemists working with bioprocesses. It covers enzyme properties, kinetics, reactor design, and operation. With 146 worked problems and solutions, it facilitates better understanding of the subject matter. The applications of industrial enzymes are expected to grow, particularly in the detergent and animal feed sectors, as well as in biofuel production and therapy for humans and animals.
|7."Biocatalysis: Biochemical Fundamentals And Applications" by Peter Grunwald|
“Biocatalysis: Biochemical Fundamentals And Applications” Book Review: This book covers the basics and uses of biocatalysis. It can be a helpful addition to other resources. It explains biochemical concepts related to the topics discussed. The book includes aspects of organic and inorganic chemistry, making it interesting for students studying biochemistry and chemistry. It covers various subjects, starting from the basics of enzyme chemistry, such as biosynthesis, structure, properties, and kinetics, to detailed explanations of catalytic mechanisms. The book emphasizes the importance of applied biocatalysis for sustainable development. It explores different enzyme classes and their applications in different forms, including immobilized enzymes and whole cells, in both traditional and non-traditional media. It also covers topics like catalytic antibodies, nucleic acid catalysts, non-ribosomal peptide synthesis, evolutionary methods, and cell design. Each chapter ends with exercises and solved examples to enhance understanding.
|8."Biocatalysis: An Industrial Perspective (Catalysis Series)" by Tom Moody and Rebecca Buller|
“Biocatalysis: An Industrial Perspective (Catalysis Series)” Book Review: This book focuses on how biocatalysis is used in industry. It provides a detailed discussion of current research and processes that are already being used commercially. The book covers all the important topics related to biocatalysis from an industrial perspective. It explains why industries choose to use biocatalysis and how to succeed in implementing biotransformation processes. The book also addresses the challenges that researchers are currently facing and offers guidance for future industrial applications of biocatalysis. It is a unique resource that can guide industrialists and researchers, providing valuable information for the development of future biocatalytic concepts in industry. Each chapter of the textbook includes a summary, introduction, and conclusion, and there are solved examples and exercises at the end of each chapter for better understanding.
|9."Biocatalysis for Green Chemistry and Chemical Process Development" by Junhua|
“Biocatalysis for Green Chemistry and Chemical Process Development” Book Review: This book is a comprehensive guide that includes introductions, applications, and case studies for all major topics. It explains recent advancements in enzyme-driven syntheses of important molecules using environmentally friendly methods. The first two chapters provide an overview of the latest technological developments in enzymes and cell-based transformations. The third chapter introduces the basics of green chemistry metrics for efficient synthesis. The remaining chapters focus on case studies related to the biotechnological production of pharmaceuticals, covering small molecules, natural products, and biologics. The book extensively covers areas such as flavors, fragrances, cosmetics, fine chemicals, value-added chemicals from glucose and biomass, and polymeric materials. Its goal is to promote the practical applications of this powerful and emerging green technology and to further advance the technology itself.
|10."Multi-scale Quantum Models for Biocatalysis" by Darrin M York and Tai-Sung Lee|
“Multi-scale Quantum Models for Biocatalysis” Book Review: This book is a comprehensive guide that explores different ways of studying molecules and their uses. It helps us understand how biological catalysts, like enzymes and ribozymes, work in detail. The book talks about various techniques, such as molecular dynamics, density functional theory, and combined QM/MM methods. It also explains solvation models, force field methods, and ways to estimate free energy. The book focuses on how these methods can be applied to studying biocatalysis in systems like protein enzymes and ribozymes. It’s a valuable resource for researchers in computational chemistry, physics, and material science, as well as professionals in nanotechnology, drug design, and molecular biology. It’s also helpful for students interested in these research areas.
2. Bioprocess Technology and Biocatalysis
|1."Bioprocess Technology" by P T Kalaiselvan and Arul Pandi|
|2."Biotechnology and Bioprocess Engineering" by Dr C M Narayan|
|3."Advances in Bioprocess Technology" by Pogaku Ravindra|
“Advances in Bioprocess Technology” Book Review: This book provides up-to-date information on environmentally friendly integrated bioprocess technology. It covers a range of technologies, including bioenergy production from lignocellulose materials, biomass gasification, ethanol and butanol production, biodiesel production from agricultural waste, enzymatic bioprocessing, food fermentation using starter cultures, and intellectual property rights related to bioprocesses. Additionally, the book discusses specialized technologies in bioprocessing, such as downstream processing for bio products and membrane technology. It is an excellent resource for scientists, engineers, students, industry professionals, and policymakers who are interested in learning about these advancements in bioprocess technology.
|4."Product Recovery In Bioprocess Technology" by Biotol|
“Product Recovery In Bioprocess Technology” Book Review: This book explores these principles and their practical applications. It primarily focuses on providing in-depth knowledge from a technology and engineering standpoint, aiming to enhance the understanding of process development principles. By delving into these topics, readers can gain valuable insights into the methods and techniques used in biotechnology, enabling them to develop more comprehensive and effective processes.The way recovery and product purification are approached varies across different sectors in biotechnology. However, there are several advanced principles that can be applied across all scales of operation.