Autorentext

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.

He 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. He is also an editorial board member of several international journals.

Klappentext

This book focuses the applications of Nanostructured carbon materials (NCMs) in all fields of pharmacy and medicine from therapeutics to analysis and diagnosis.

Inhalt

Foreword. Preface. Acknowledgment. About the author. Introduction. Summary. Chapter 1 Biomedical Applications for Direct Drug Delivery Carriers and Cancer Therapy- Based Carbon Nanotubes Porins (CNTPs). Chapter 2 Novel Strategies-Based Versatile Carbon Nanoplatforms for Cancer Therapeutics. Chapter 3. Carbon Nanotubes (CNTs) Carriers-Based Biomimetic Inherent Medication Therapeutic Drug Delivery Systems (DDS). Chapter 4Carbon Nanotubes-Based Diagnosis and Novel Emerging Target Drug Delivery Systems for Anticancer Therapies. Chapter 5 Strategies of Targeted Smart Drug Gene Therapy and Immunosensing for Carbon-Based Nanomaterials as Anticancer Mediators Nanoparticles. Chapter 6 Bioimaging Strategies Utilizing Carbon Nanomaterials (CNMs) for Biomolecules, Microorganisms and Virus Detection. Chapter7.Carbon-Based Nanomaterials for Targeted Cancer Nanotherapy: Controlled Drug Delivery Systems Design and Development Strategies. Chapter 8 Emerging Strategies and Cutting-Edge Progress (CNMs) in Drug Delivery to Improve Cancer Treatment: Surface Modification and Biological Interaction. Chapter 9 Strategies-Based CNTs and Fullerenes as Smart Drug Co-Delivery Nanocarriers for Cancer Nanotherapy: Future of Translational Nanomedicine.List of Abbreviations. Index.

Foreword. Preface. Acknowledgment. About the author. Introduction. Summary. Chapter 1Recent Developments and Future Prospects In vitro and In vivo of CNTs Nanocarriers for-Targeted Drug Delivery System. Chapter 2 Carbon Nanotubes as Targeting Therapeutic Arsenal for Blood Brain Cancer Tumors Diseases-Based Novel Drug Delivery Platforms. Chapter 3 Carbon Nanomaterials as Emerging Nanocarriers for the Anti-Cancer Targeting Drug Delivery Doxorubicin: Improved Novel Cancer Therapy Technologies. Chapter 4 Novel Technologies Toward Intervention Carbon Family-Based Nanomaterials for Detection, Diagnosis and Cancer Therapeutics. Chapter 5 Pharmacokinetics, Biodistribution and Intracellular Energy Metabolism Aspects of Carbon Nanomaterials: Improving Novel Outcomes of Functionalization for Biomedical Applications. Chapter 6 Cytotoxicity Profile of Carbon Nanomaterials as an Effective Anticancer Drug Carriers. Chapter 7 Novel Tumor-Targeting Drug Delivery Systems Based- Carbon Nanomaterials in Cancer Treatment. Chapter 8 Carbon-Based Nanomaterials (CBNMs) as Emerging Platform for Anticancer Nanotherapy: Novel Strategy and Future Prospects. Chapter 9 Recent Advancements of Carbon Dots Strategy Based Effective Novel Photosensitizers and Anticancer Drug Delivery System. References. Index.

Foreword. Preface. Acknowledgment. Author Biograph. Introduction. Summary. Chapter 1 Carbon Nanotube Composites: Fundamentals and Synthesis Ways. Chapter 2 Basic Working Strategies and Implementation Principles of Nano Carbons Family Composites-Based Biosensors and Sensing Devices. Chapter 3 Mechanisms and Classifications of Carbon-Based Chemical, Physical and Field Effect Transistors (FETs) Biosensors as Sensing Platform. Chapter 4 Carbon-Based Nanomaterials (CBNMs) in Drug Delivery and Biomedical Applications for Cancer Diagnosis and Therapy. Chapter 5 Graphene-Based Biomedical Sensor Materials and Anticancer Drug Delivery Systems (DDSs). Chapter 6 Current Trends and Future Potential in Carbon Nanomaterials (CNMs)-Based High-Sensitivity Electrical Gas/Vapor Strain Sensors. Chapter 7 Recent Developments in Doped/Co-Doped Carbon Nanodots (CNDs) as Booming Material in Biomedicine Applications. Chapter 8 Advances Development in Processing Carbon Dots Composites and their Surface Modification Strategies Methods for Bioremediation Technological Applications. Chapter 9 Two-Dimensional Graphitic Carbon Nitride (g-C3N4)-Based Nanoplatforms Emerging Electrochemical and Biosensors for Healthcare and Biomedical Applications. Chapter 10 Carbon Nanotubes-Based Intelligent Platform for Cancer Vaccine Development Co-delivery Nanocarriers Immunotherapy Achievements: Challenges In vitro and In vivo. Chapter 11 Unique Principal Properties and for Electrochemical BiosensorsBased on Functional Nanomaterials. Appendix: List of abbreviations. Index