This book examines the crucial role of soil microbial communities in agroecosystems, highlighting their contributions to plant growth promotion, disease suppression, pathogen resistance, and soil remediation.
This book explores how machine learning is transforming nanomedicine, with a focus on the rational design of lipid nanoparticles (LNPs) for mRNA-based therapies.
This book explores how machine learning is transforming nanomedicine, with a focus on the rational design of lipid nanoparticles (LNPs) for mRNA-based therapies.
Comprehensive Chemistry and Biology of Coumarins Scaffold covers detailed methods and protocols to synthetize Coumarin derivatives and different applications and future perspectives for these compounds.
Mathematical Modeling and AI-Driven Computational Techniques for Epidemiology and Disease Dynamics offers a comprehensive exploration of innovative methodologies at the intersection of mathematics, biology, and medicine.
Antibiotic Resistance and Nanotherapy is a comprehensive guide that explores an interdisciplinary approach to address the pressing issue of antibiotic resistance and explores the possibility of nanotherapy as a cutting-edge strategy to treat illnesses that are resistant to antibiotics, employing nanoparticles to target and kill bacteria selectively without damaging healthy cells.
The purpose of this book is to illustrate a new statistical approach to test allelic association and genotype-specific effects in the genetic study of diseases.
This contributed volume provides an in-depth examination of entomopathogenic fungi, focusing on their diversity, ecological roles, and potential as biocontrol agents.
This book provides a comprehensive exploration of the climate resilience and molecular adaptation of alpine medicinal flora, integrating insights from ecophysiology, metabolomics, and plantomics.
This book provides a comprehensive and up-to-date overview of wound healing, from its biological foundations to the most advanced therapeutic frontiers.
This book provides a comprehensive and up-to-date overview of wound healing, from its biological foundations to the most advanced therapeutic frontiers.
Based on the success of the first edition, Pigments from Microalgae Handbook – Second Edition, Volume III: Industrial and Functional Applications is the final volume of a comprehensive three-volume series that captures the transition from cutting-edge microalgal pigment science to real-world innovations across consumer-driven industries.
Based on the success of the first edition, Pigments from Microalgae Handbook – Second Edition, Volume III: Industrial and Functional Applications is the final volume of a comprehensive three-volume series that captures the transition from cutting-edge microalgal pigment science to real-world innovations across consumer-driven industries.
Based on the success of the first edition, Pigments from Microalgae Handbook – Second Edition, Volume II: Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations is the second of a comprehensive three-volume series offering a cutting-edge reference on the transition from laboratory research to industrial-scale processes in the development of microalgal pigments.
Based on the success of the first edition, Pigments from Microalgae Handbook – Second Edition, Volume II: Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations is the second of a comprehensive three-volume series offering a cutting-edge reference on the transition from laboratory research to industrial-scale processes in the development of microalgal pigments.
Millets as Superfood: Biochemistry, Biotechnology, and Applications presents a timely and exhaustive analysis of these ancient grains that are quickly evolving as the foods of the future.
Millets as Superfood: Biochemistry, Biotechnology, and Applications presents a timely and exhaustive analysis of these ancient grains that are quickly evolving as the foods of the future.
This book covers the challenges and applications of nanotechnology for managing agroecosystems from maintaining seed quality and ends with food packaging and processing.
This book examines the convergence of nanotechnology and bioenergy to develop sustainable biowaste-based biorefineries, offering solutions to growing concerns about fossil fuel depletion, waste accumulation, and environmental degradation.
This book covers the challenges and applications of nanotechnology for managing agroecosystems from maintaining seed quality and ends with food packaging and processing.
This volume in the Cell Biology and Translational Medicine series continues to explore the promising applications of stem cells in regenerative medicine.
This volume in the Cell Biology and Translational Medicine series continues to explore the promising applications of stem cells in regenerative medicine.
Deep Learning for Cardiac Signal Analysis in Robotic Applications delves into the transformative role of artificial intelligence in enhancing robotic-assisted cardiovascular procedures.
This book aims to provide a thorough resource in biomedical theragnostics nanoplatforms with coverage from the basics of nanotechnology to the nuances of designing and manufacturing nanoplatforms to their many uses in biomedicine.
Applied Science and Engineering of Wound Dressings and their Clinical Effectiveness: From Design Principles to Physiological Performance addresses the measurable physical, chemical, biomaterial, fluid structure, mechanical and thermal characteristics that are imperative for a dressing to effectively treat acute and chronic wounds.
This book examines the convergence of nanotechnology and bioenergy to develop sustainable biowaste-based biorefineries, offering solutions to growing concerns about fossil fuel depletion, waste accumulation, and environmental degradation.
This book aims to provide a thorough resource in biomedical theragnostics nanoplatforms with coverage from the basics of nanotechnology to the nuances of designing and manufacturing nanoplatforms to their many uses in biomedicine.
Durch die Genomeditierung mit der Genschere CRISPR/Cas und den Einsatz künstlicher Intelligenz bei der Analyse genetischer Daten erleben wir eine neue Dimension der Gentechnik.
