"Viel zu wenig wird untersucht, wer weshalb mit welchen Medien Wissen auf Reisen schickt oder von Reisen mitbringt und wer auf welche Weise sich fremdes Wissen eigensinnig angeeignet, um das Eigene neu zu interpretieren.
This book covers all aspects of anaerobic waste conversion technologies using anaerobes, particularly in anaerobic digestion and fermentation processes.
New technologies that allow us to investigate mechanisms and functions of the brain have shown considerable promise in treating brain disease and injury.
3D Printing and Microfluidics in Dermatology provides a thorough exploration and applications of three-dimensional (3D) printing and microfluidics within the field of dermatology.
"Viel zu wenig wird untersucht, wer weshalb mit welchen Medien Wissen auf Reisen schickt oder von Reisen mitbringt und wer auf welche Weise sich fremdes Wissen eigensinnig angeeignet, um das Eigene neu zu interpretieren.
Bio Refinery of Wastewater Treatment: Way to Generate Waste to Value focuses on the exploitation of various wastewater treatment technologies and microbial, chemical, and physical processes as tools for simultaneous value generation during treatment, degradation, detoxification, and stabilization of toxic and hazardous contaminants and restoring contaminated sites.
Explores Biomedical Science from a Unique PerspectiveBiomaterials: A Basic Introduction is a definitive resource for students entering biomedical or bioengineering disciplines.
Addresses a Growing Need for the Development of Cellular and Porous Materials in IndustryBuilding blocks used by nature are motivating researchers to create bio-inspired cellular structures that can be used in the development of products for the plastic, food, and biomedical industry.
3D bioprinting is an emerging innovative technology that involves the fabrication of essential 3D functional biomedical constructs by combining cells and biomaterials with vital growth and differentiation factors.
The book provides a comprehensive exploration of sustainable practices in biomaterial development for biomedical applications, covering diverse topics such as green synthesis methods, the potential of biodegradable materials, renewable resources for biopolymers, strategies in polymer synthesis, bio-mediated nanomaterials, sustainable manufacturing techniques including 3D and 4D printing, protein-based biomaterials, composite biomaterials derived from cellulose, chitin, and chitosan, as well as hydroxyapatite-starch-based biomaterials, carbonaceous materials, eco-friendly synthesis of metal and metal oxide nanomaterials, silk fibroin scaffold synthesis, utilization of green catalysts, cellulose-derived hydrogels for tissue engineering, plant extract-mediated synthesis of metallic nanoparticles, and eggshell-derived biomaterial synthesis.
Stimuli-Responsive Nanocarriers for Targeted Drug Delivery presents a comprehensive overview of the most significant physical and chemical stimuli-responsive drug delivery systems.
Medical Nanobiotechnology: Nanomedicine for Repair, Regeneration, Remodelling, and Recovery thoroughly reviews the potential of functionalized biomaterials as ideal candidates for nanomedicine.
Leveraging Metaverse and Analytics of Things (AoT) in Medical Systems explores the potential benefits and applications of emerging technologies such as metaverse and AoT in the field of healthcare.
This book provides a comprehensive overview of the use of vision attentive technology and artificial intelligence methodologies for functional mobility assessment in elderly populations.
Medicinal Biotechnology: Methods and Applications covers a wide range of topics from traditional herbal medicine to recent plant and animal biotechnology approaches used for the production of vaccines, hormones, enzymes, edible medicinal products, herbal therapeutics, and other secondary metabolites.
Medicinal Biotechnology: Methods and Applications covers a wide range of topics from traditional herbal medicine to recent plant and animal biotechnology approaches used for the production of vaccines, hormones, enzymes, edible medicinal products, herbal therapeutics, and other secondary metabolites.
The book provides a comprehensive exploration of sustainable practices in biomaterial development for biomedical applications, covering diverse topics such as green synthesis methods, the potential of biodegradable materials, renewable resources for biopolymers, strategies in polymer synthesis, bio-mediated nanomaterials, sustainable manufacturing techniques including 3D and 4D printing, protein-based biomaterials, composite biomaterials derived from cellulose, chitin, and chitosan, as well as hydroxyapatite-starch-based biomaterials, carbonaceous materials, eco-friendly synthesis of metal and metal oxide nanomaterials, silk fibroin scaffold synthesis, utilization of green catalysts, cellulose-derived hydrogels for tissue engineering, plant extract-mediated synthesis of metallic nanoparticles, and eggshell-derived biomaterial synthesis.
The book delves into the realm of biomaterials with a strong focus on sustainability, offering insights into their diverse applications in advanced therapeutics, and, diagnostics.
This book covers the various sources, the role of treatment technologies, system-associated factors, and future challenges with reference to microplastics in wastewater treatment plants.
Endophytes from medicinal plants have garnered global attention due to their remarkable capacity to produce unique phytochemicals, pharmaceuticals and promising lead compounds.
Many varieties of new, complex diseases are constantly being discovered, which leaves scientists with little choice but to embrace innovative methods for controlling the invasion of life-threatening problems.
Quantitative tools are becoming increasingly important in order to understand complex cascade of signal transduction events, pathways or biochemical reactions.
This book is unique as it will cover the latest technological advancements in the field of biorefinery and how it is a major futuristic component of global biofuel research.
A First Course in Systems Biology, Third Edition is an introduction to the growing field of systems biology for advanced undergraduates and graduate students.
The Complete, Unified, Up-to-Date Guide to Transport and Separation-Fully Updated for Today's Methods and Software Tools Transport Processes and Separation Process Principles, 5th Edition, offers a unified and up-to-date treatment of momentum, heat, and mass transfer and separations processes.
Keine ausführliche Beschreibung für "Methoden und Programme zur Berechnung chemischer Reaktoren / Metody i programmy dlja rasčeta chimičeskich reaktorov" verfügbar.
Guide to Plant Single-Cell Technology: Functional Genomics and Crop Improvement summarizes the current status of single-cell technology in plants involving food and energy crops.
Guide to Plant Single-Cell Technology: Functional Genomics and Crop Improvement summarizes the current status of single-cell technology in plants involving food and energy crops.
Synthetic biology is enabling scientists to use engineered genetic circuits in the cells as the basis for the development of new living therapeutics and as a powerful new weapon in the fight against diseases, especially cancer.
This book celebrates two decades of groundbreaking research published in the ASAIO Journal, marking significant advancements in artificial organs and circulatory support.
This book provides a unique knowledge source of the FDA's regulatory processes to anyone interested in the development and approval of biomedical products.
Fundamentals of Biosensors in Healthcare: Volume One provides comprehensive coverage on fundamentals while also delving into the diverse types of biosensors used in healthcare.
