1) Aids professionals in meeting an increasing demand for more cost effective materials that still provide high performance 2) Monitors the impact of inorganic nanofillers in promoting polymer circular economy 3) Discusses metallic foams and high entropy inorganic nanofillers 4) Features cutting edge research on nanocomposite derived anisotropy hydrogels and their multifunctional applications, with emphasis on wound dressing properties.

1) Aids professionals in meeting an increasing demand for more sustainable materials which are biodegradable, as nanomaterials meet these criteria 2) Monitors the impact of organic nanofillers in promoting polymer circular economy 3) Discusses computational studies on the effect of nanofillers on polymer matrices 4) Looks at properties of nanofillers including the mechanical, thermal, electrical, optical, and magnetic properties

This book initiates with an introduction to polymeric materials, followed by various classifications and properties of polymeric implant material including various development methods of polymeric materials and their characterization techniques. An overview of various toxicology assessments of polymeric materials and polymeric materials for drug delivery system is also included. Design and Analysis of Polymeric Materials based Components using Ansys Software along with polymeric materials for additively manufactured artificial organs is also discussed. Features: Addresses assessment of polymeric materials in biomedical sciences including classification, properties, and development of polymeric implants. Covers various topics in the field of tissue regeneration. Discusses the biocompatibility, toxicity, and biodegradation of polymeric materials. Explores wide scale characterization to study the effect of inclusion size on mechanical properties of polymeric materials. Reviews limitations and future directions on polymeric material with emphasis on biocompatibility. This book is aimed at graduate students and researchers in biomaterials, biomedical engineering, composites, and polymers.

This two volume set will analyse the modifying effects of both organic and inorganic nanofillers on the mechanical properties of polymer nanocomposites. Detailing processing, characterization, properties, and applications, the books demonstrate how choosing the right nanofiller can encourage innovation, sustainability and cost effective manufacturing. The set includes the following volumes: - Volume one looks at organic nanofillers including natural fibres and membranes - Volume two focuses on inorganic nanofillers including metallic foams, metal oxides and hydrogels These volumes will be of interest to engineers involved with inorganic nanofillers, in a variety of industries including automotive, aerospace and biomedical engineering.

Exploring theories and applications developed during the last 30 years, Digital Geometry in Image Processing presents a mathematical treatment of the properties of digital metric spaces and their relevance in analyzing shapes in two and three dimensions. Unlike similar books, this one connects the two areas of image processing and digital geometry, highlighting important results of digital geometry that are currently used in image analysis and processing.

The book discusses different digital geometries in multi-dimensional integral coordinate spaces. It also describes interesting properties of the geometries, including metric and topological properties, shapes of circles and spheres, proximity to Euclidean norms, and number theoretic representations of geometric objects such as straight lines and circles. The authors all active researchers in image processing and digital geometry demonstrate how these concepts and properties are useful in various techniques for image processing and analysis. In particular, the book covers applications in object representation and shape analysis.

With many figures (some in color) and end-of-chapter exercises, this book provides an in-depth, unified account of digital metrics, the characterization of digital curves and straight lines, and their uses in shape analysis. It gives you insight on the latest two- and three-dimensional image processing applications."

Sensing of Deadly Toxic Chemical Warfare Agents, Nerve Agent Simulants, and their Toxicological Aspects provides a general overview of the development and performance of different novel molecular frameworks as potent vehicles for sensing Chemical Weapons (CWs). The chapters are contributed by leading researchers in the areas of materials science, medical science, chemical science, and nanotechnology from industries, academics, government and private research institutions across the globe. It covers cover topics such as inorganic nanocomposites, hyperbranched polymers, and graphene heterojunctions for effective sensing of CW agents. This book is a highly valuable reference source for graduates, post-graduates, and research scholars primarily in the fields of materials science, medicinal chemistry, organic chemistry, and nanoscience and nanotechnology. In addition, almost all analytical techniques will be discussed, making this a first-rate reference for professors, students, and scientists in many industries.

A three-volume comprehensive overview of the development and applications of various novel potent molecular sensor frameworks In Organic and Inorganic Materials Based Sensors (3 Volume Set), a team of distinguished researchers delivers an interdisciplinary presentation of the engineering of high-performance biopolymer-based bio-nanocomposites, as well as strategies for the use of various molecules in the detection of environmentally important guest analytes. This three-volume book explores the most relevant technological developments in nanomaterials sensors and offers a broad and comprehensive overview of cutting-edge research on advanced materials in the fast-moving sensors industry. The authors explain the science behind nanomaterials for environmental remediation as well as the components and ingredients of the relevant materials. Readers will also find: Thorough introductions to sensory devices, polymer-based nano-biomaterials, and opto-electrochemical devices Comprehensive explorations of metal-organic frameworks, organic sensors, and organic-inorganic composite semiconductor sensors Practical discussions of vapochromic and vapoluminescent sensors Fulsome treatments of sensor ecosystems for health self-monitoring, including discussions of diabetes management Perfect for materials scientists, mechanical engineers, and analytical chemists, Organic and Inorganic Materials Based Sensors will also benefit inorganic and organic chemists, robotics engineers, and professionals working in the sensor industry.

Exploring theories and applications developed during the last 30 years, Digital Geometry in Image Processing presents a mathematical treatment of the properties of digital metric spaces and their relevance in analyzing shapes in two and three dimensions. Unlike similar books, this one connects the two areas of image processing and digital geometry, highlighting important results of digital geometry that are currently used in image analysis and processing. The book discusses different digital geometries in multi-dimensional integral coordinate spaces. It also describes interesting properties of the geometries, including metric and topological properties, shapes of circles and spheres, proximity to Euclidean norms, and number theoretic representations of geometric objects such as straight lines and circles. The authors-all active researchers in image processing and digital geometry-demonstrate how these concepts and properties are useful in various techniques for image processing and analysis. In particular, the book covers applications in object representation and shape analysis. With many figures (some in color) and end-of-chapter exercises, this book provides an in-depth, unified account of digital metrics, the characterization of digital curves and straight lines, and their uses in shape analysis. It gives you insight on the latest two- and three-dimensional image processing applications.

Novel Platforms for Drug Delivery Applications covers diverse aspects in the design, synthesis and characterization of novel drug delivery platforms and devices. This book comprehensively details the development, application and performance of various novel molecular frameworks as potent drug delivery vehicles. Chapters cover a range of materials and molecular platforms for drug delivery, from hydrogels, nanocarriers and metal-organic-frameworks, to ?-cyclodextrin and polyphosphazene. Each chapter discusses the benefits and limitations of each drug delivery system, as well as toxicological and safety implications. This book offers an interdisciplinary approach to this fast-moving topic, bridging the disciplines of materials science and pharmacology.