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On single-valued neutrosophic soft uniform spaces
In this paper, we introduce the notion of single-valued neutrosophic soft uniform spaces as a view point of the entourage approach. We investigate the relationship among single-valued neutrosophic soft uniformities, single-valued neutrosophic soft topologies and single-valued neutrosophic soft interior operators. Also, we study several single-valued neutrosophic soft topologies induced by a single-valued neutrosophic soft uniform space.
On stratified single-valued soft topogenous structures
This paper presents novel concepts including stratified single-valued neutrosophic soft topogenous (stratified svns-topogenous), stratified single-valued neutrosophic soft filter (stratified svns-filter), stratified single-valued neutrosophic soft quasi uniformity (stratified svnsq-uniformity) and stratified single-valued neutrosophic soft quasi proximity (stratified svnsq-proximity). Additionally, we present the idea of single-valued neutrosophic soft topogenous structures, formed by integrating svns-topogenous with svns-filter, and discuss their properties. Furthermore, we explore the connections between these single-valued neutrosophic soft topological structures and their corresponding stratifications.
Sensory Polymers
Sensory Polymers: From their Design to Practical Applications discusses recent developments in the field of sensory polymers and showcases the potential applications of these materials in food control and security, civil security, the biomedical field, environmental control and remediation, industrial control of chemicals, and more. Written by worldwide experts in the field, chapters provide in-depth knowledge on several different polymer sensors and their response to different stimuli, which makes this book a valuable resource for researchers and advanced students in polymer science, materials science, and chemistry, as well as those interested on sensing applications and chemical sensory systems, including industry R&D. - Discusses the foundation of sensory polymers, from material design to development and production - Explores state-of-the-art applications in environmental control, biomedicine, sensing, the chemical industry, and food science - Provides perspectives and future applications of polymer chemosensors
Single-Valued Neutrosophic Ideal Approximation Spaces
In this paper, we defined the basic idea of the single-valued neutrosophic upper, single-valued neutrosophic lower and single-valued neutrosophic boundary sets of a rough single-valued neutrosophic set in a single-valued neutrosophic approximation space. We joined the single-valued neutrosophic ideal notion with the single-valued neutrosophic approximation spaces and then introduced the single-valued neutrosophic ideal approximation closure and interior operators associated with a rough single-valued neutrosophic set, single-valued neutrosophic ideal approximation connectedness and the single-valued neutrosophic ideal approximation continuity between single-valued neutrosophic ideal approximation spaces are introduced. The concepts of single-valued neutrosophic groups and their approximations have also been applied in the development of fuzzy systems, enhancing their ability to model and reason using uncertain and imprecise information.
Advances in Nanotechnology-Based Drug Delivery Systems
Advances in Nanotechnology-Based Drug Delivery Systems covers the core concepts and latest research regarding the use of nanoscale materials for the development and application of drug delivery systems. The book introduces the reader to nanotechnology in drug delivery, covering the synthesis, encapsulation techniques, characterization and key properties of nanoscale drug delivery systems. Later chapters review the broad range of target applications, including site-specific delivery of drugs for cardiovascular disease, cancer, bacterial infection, bone regeneration. and much more. This book helps translate advanced research into a clinical setting, analyzing the toxicity and health and safety...
Bionanotechnology: Next-Generation Therapeutic Tool
Nanoscale technologies are crucial for the characterization and fabrication of biomaterials that are useful in targeted drug delivery systems. New materials enable the delivery of therapeutic agents to specific tissues and cells in order to treat a range of diseases. Bionanotechnology: Next-Generation Therapeutic Tools provides a quick overview of the use of nanomaterials in modern drug delivery and targeted drug therapy systems. The book starts with an overview of nanomaterial toxicity with subsequent chapters detailing their applications in nanomedicine. Concepts such as immunotherapy, cancer theranostics, molecular imaging, aptamers and viral nanoparticles are highlighted in specific chapters. The simplified presentation along with scientific references makes this book ideal for pharmacology and biomedical engineering scholars and life science readers.
Sustainable Approach to Protective Nanocoatings
It is essential to harness the potential of nanotechnology in a rapidly evolving industrial environment. As industries grapple with the demand for more advanced, efficient, and sustainable solutions, the intricate amalgamation of chemistry, materials science, physics, biology, and technology in nanotechnology emerges as both a beacon of promise and a complex puzzle. The groundbreaking book, Sustainable Approach to Protective Nanocoatings, serves as a transformative solution. Tailored for academic scholars seeking comprehensive insights, this book navigates the labyrinth of nanotechnology with precision, offering a roadmap for leveraging nanostructured materials and coatings to meet the demands of the modern industrial world. By seamlessly weaving together the intricate tapestry of research methodologies, applications, and technological advances, the book emerges as an indispensable resource for those poised at the intersection of academia and industry.
