Applications Of Biophotonics And Nanobiomaterials In Biomedical Engineering
Download Applications Of Biophotonics And Nanobiomaterials In Biomedical Engineering PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Applications Of Biophotonics And Nanobiomaterials In Biomedical Engineering book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Applications of Biophotonics and Nanobiomaterials in Biomedical Engineering
This book provides a link between different disciplines of nanophysics, biophotonics, nanobiomaterials & applications of nanobiophotonics in biomedical research and engineering. The fundamentals of light, matter, nanobiomaterials & nanophysics are discussed together, and relevant applications in biomedical engineering as well as other related factors influencing the interaction process are explicated. Theoretical and experimental research is combined, emphasizing the influence of crucial common factors on applications.
Photofunctional Nanomaterials for Biomedical Applications
Summary of the controlled synthesis of photofunctional nanoparticles and their hybrid nanocomposites, as well as their potential in biomedical applications Photofunctional Nanomaterials for Biomedical Applications presents the latest research and developments surrounding photofunctional nanomaterials, including rare earth luminescence nanomaterials and photothermal agents, for biomedical applications related to imaging, biosensing, controlled drug delivery and release, and tumor diagnosis and therapy, as well as other applications such as bacteria engineering, optical information storage, acoustic sensing, and temperature detection. The book elucidates the underlying functioning mechanisms of these nanomaterials in depth and extensively discusses their current challenges and future development prospects. Written by two highly qualified professors with significant research experience in the field, Photofunctional Nanomaterials for Biomedical Applications discusses sample topics including: Fabrication of composites based on lanthanide-doped up conversion nanomaterials and metal-organic frameworks Photosensitizers for photodynamic therapy (PDT), covering basic principles of PDT, classifications of various photosensitizers, mechanisms during treatment, and x-ray-activated PDT Nanomaterials-induced pyroptosis and immunotherapy including pyroptosis pathways and their potential in immunotherapy, especially in activating effector T cells and promoting dendritic cell maturation Design of ternary quantum dots, antibacterial mechanisms in photofunctional antibacterial nanomaterials, and inorganic nanomaterials in photothermal therapy Establishing a robust groundwork for the future clinical translation, Photofunctional Nanomaterials for Biomedical Applications is an essential up-to-date reference on the subject for materials scientists, photochemists, biochemists, and electronic engineers.
Nanomaterials for Biomedical and Bioengineering Applications
This book accumulates the most recent advancements in the field of bioengineering regarding hybrid science named nanobiotechnology and enriches the readers with vast and comprehensive knowledge about different biomedical applications of nanomaterials. It includes drug and gene delivery, tissue engineering, antimicrobial properties, hyperthermia, cancer therapy, bioimaging, biosensing, photoablation therapy, etc., utilizing the potential of different nanomaterials that are helpful for the well-being of diseased individuals. Furthermore, the concerns about multidrug-resistant microorganisms are increasing daily in the healthcare system. Since conventional therapies fail to combat various infectious diseases, novel nanotechnology techniques provide an alternative approach to developing innovative biomaterials. The novel features of nanomaterials need to be exploited for use in the biomedical engineering domain. They should be fabricated so that the novel multifunctional nanomaterials notonly improve drug efficacy but also reduce their side effects. Moreover, a detailed understanding of the nanotoxicological effects of promising biomedical nanomaterials should necessarily be explored using the cell culture approach. Corona of nanomaterials should be investigated in detail to determine its fate in the biological system regarding safety concerns. This is the most important feature that is novel and explored in this book and would be very helpful for customers like clinicians, scientists, engineers, and technicians who will gain extensive knowledge from this book and work together to get the desired results in the healthcare sector.