Carbon Nanomaterials-Based Biosensing for Cancer Therapeutics Technology Platform - Madkour, Loutfy H.
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This book summarizes the recent progress in the research on the advancement of technology sensing based sensors and biosensors of carbon nanomaterials (mainly, CNTs and graphene or graphene oxide) and its biomedical applications particularly in drug delivery for anticancer diagnosis and therapies. It discusses the main advances in the field over the last few years and explore the novel preparation methods of carbon nanomaterials (metal nanostructures/carbon materials) and their applications in various catalytic organic transformations. Carbon nanotubes are large molecules, made from a…mehr

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Produktbeschreibung
This book summarizes the recent progress in the research on the advancement of technology sensing based sensors and biosensors of carbon nanomaterials (mainly, CNTs and graphene or graphene oxide) and its biomedical applications particularly in drug delivery for anticancer diagnosis and therapies. It discusses the main advances in the field over the last few years and explore the novel preparation methods of carbon nanomaterials (metal nanostructures/carbon materials) and their applications in various catalytic organic transformations. Carbon nanotubes are large molecules, made from a repeating pattern of sp2 hybridized carbon atoms in a hexagonal arrangement, wrapped into a cylinder of approximately 2.5-100 nm in diameter. Carbon nanotubes are single or multi-walled depending on the number of carbon sheets rolled together, while the ends are capped by a hemispherical carbon arrangement as seen in fullerenes. CNTs very sensitive to be affected by exposure to biomolecules as sensing elements for new biosensors with high sensitivity for the rapid detection of targeted substrates. The book discusses the basic working strategies and implementation principles of nano carbons family composites-based sensors, biosensors and gas/vapor strain sensors. The book demonstrates, explains and considers the advanced applications of carbon nanomaterials depends on the specific structural stability, physical, chemical, magnetic, optical, electrical, thermal, electronic, mechanical and physicochemical properties of CNTs. The book discusses the achievements and challenges in vitro and in vivo of CNTs for cancer vaccine co-delivery -based nanocarriers immunotherapy. In brief current studies regarding CBNMs have shown a very promising glimpse of what lies ahead in the future of medicines. Lastly, biomedical imaging, based on the inherent physical properties of SWNTs, may be combined with drug delivery for multimodality cancer diagnosis and therapy. Despite challenges on the way towards the clinic, carbon nanotubes exhibit great potential for biomedicine, and may bring unprecedented opportunities for the future of cancer diagnosis and therapy. Also, the trend of investigation of CNT-based carbohydrate biosensors has been studied.
Autorenporträt
LOUTFY H. MADKOUR is a Full Professor of Physical chemistry, Nanoscience and Nanotechnology at Tanta University (Egypt) and Al Baha University (Saudi Arabia) .He is a contributing Researcher and Editor to Chemistry World. He has more than 20 years of experience in science: research, writing and editing in condensed-matter, Corrosion Science and Advanced Structured Materials relating to Nanoscience, Nanomaterials, Technology/Nanotechnology/Biotechnology, Cancer Nanomedicine, and Drug Delivery. He received his BSc, MSc, and PhD in Physical Chemistry from the Cairo, Minia, and Tanta Universities in Egypt, respectively. He has conducted a series of studies in various areas of the field of Physical chemistry: electrochemistry, electroanalytical chemistry, corrosion science, density functional theory (DFT), molecular dynamic simulation, quantum chemistry, theoretical chemistry, chemical equalization principles, nanoscience, nanotechnology, nanomedicine, nanotoxicology, electrometallurgy, analytical chemistry, polarography, electrolytic extraction of heavy metals from natural ores and deposits, electrochemical thermodynamics, and environmental chemistry. His earlier research included the biosynthesis of metallic nanoparticles (MNPs) as well as toxicology studies for pharmacological applications in nanomedicine and therapy. He has published 200 peer-reviewed original research articles, 26 review articles, 8 book chapters and 12 books in the area of physical and environmental chemistry, advanced structural nanomaterials, corrosion science, nanoelectronics materials, advancements and Innovations in energy storage, cancer nanomedicine, drug delivery and nanotoxicology. Prof. MADKOUR is appointed as the prestigious Editorial Board member of several international journals. His name has been listed in the top 2% of the most distinguished and influential scientists globally according to the ranking and database of Stanford American University of Scientists globally in (2022). He obtained Award: ISAO in the year (2022): "Lifetime Achievement Award" in the International Scientist Awards on Engineering, Science and Medicine. He obtained Awards: ISAO in the years (2022, 2021 and 2020): "Distinguished Scientist Award" in the International Research Awards on Science, Technology, and Management.