Ikram Ahmad – författare
2 231 kr
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Nanomedicine explores the modification and enhancement of the properties and performances of typical drugs to treat various diseases. Nano-based medicines have advantages in several ways, such as in nanotherapeutics, nanotheranostics, and nanodiagnostics.Nanomedicine Manufacturing and Applications effectively explores the major manufacturing techniques and applications of nanomaterial-based medicine in the areas of chemotherapy, biochips, insulin pumps, and other treatment methods. This book explains how nanomedicines are developed from nanoparticles as well as their biomedical and other applications related to healthcare.This book is an important reference source for nanoscientists, biomaterials scientists, and biomedical engineers who want to learn more about how nano-based medicines are made and used.
Outlines the process of making nanomedicine as well as nanodrug carriers, with a focus onnanomedicine for cancer treatment. Explains the formulation and manufacturing process of nanomedicines, showing how to buildthese materials. Demonstrates how nano-based medicines are being used to tackle a range of diseases in away that conventional medicines cannot.
2 351 kr
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2 592 kr
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Nanomaterial-Based Metal Organic Frameworks for Single Atom Catalysis covers nanoparticles and their properties, including tunable pore size, efficient reacting capability, large surface area, and morphology, which make them effective catalytic agents. In addition, the book covers catalytic systems, in which nanomaterial-based metal organic frameworks can be applied efficiently as single atom catalysis to enable enhanced functionalities and activities of the reactions in various applications. This book is an important reference source that will be of use to materials scientists, engineers, chemists and chemical engineers who want to learn more about nanomaterials are being used for catalytic applications.
Metal organic frameworks (MOFs) are hybrid organic-inorganic, porous, crystalline nanomaterials, and have aroused great attention in the field of catalysis because of their crystalized nano- (lt;2 nm) or meso- (2-50 nm) porous structure, extremely high surface area, and significant chemical diversity. This nanomaterial-based metal organic framework, as a single atom catalysis, enhances the catalytic ability of dispersed single atoms.
Provides information on the reactions catalyzed by single atom catalysts at the nanoscale Explains the major applications of metal-organic-framework-derived nanomaterials Assesses the major challenges of applying metal organic framework-derived nanomaterials on an industrial scale