This book provides a well-focused and comprehensive overview of the history and background of MXenes based materials and their structure, synthesis, properties and modifications for making various advanced materials. It covers in-depth processing parameters for making MXenes based material for high-end applications in the biomedical area.
This book provides a well-focused and comprehensive overview of the history and background of MXenes based materials and their structure, synthesis, properties and modifications for making various advanced materials. It covers in-depth processing parameters for making MXenes based materials for high-end applications, especially in the biomedical and pharmaceutical fields.
MXene Based Emerging 2D Materials for Biomedical Applications, examines the use of MXenes in the health care sector as therapeutic agents in pharmaceuticals and medicine. The book examines Mxene use in diagnosis and analysis as biosensors, disease detection, gene and drug delivery, cancer therapy, bioimaging, GO-based antibacterial materials. It also discusses its potential as a promising antioxidant and go-based scaffold for cell culture. It provides a comprehensive introduction of advanced MXene based materials for the biomedical field / health sector through an interdisciplinary approach of research in science and biomedical engineering. The authors demonstrate possible areas wherein the advanced MXene based emerging materials can benefit combining diagnostics and therapeutic possibilities and multiplex system and highlights the unique and novel approach to developing advanced medical applications platforms and state-of-the-art directions for future research.
This book will guide bioengineering and material science students, scientists, and researchers to plan future research in this valuable field. It is a unique book that gives broad knowledge about MXene based advanced materials under a single umbrella and demonstrates the usefulness of MXenes in the healthcare sector in multiple ways.
Chapter 1- Exploring the Potential of MXene-based 2d Materials in the
Realm of Biomedical Advancements
Chapter 2- MXene Based 2d Materials for Biosensing
Chapter 3- MXene Based Emerging 2d Materials for Biomarkers (Electrodes)
Chapter 4- MXene-Based Emerging 2d Materials for Biomedical Photothermal and
Photodynamic Therapeutic Application
Chapter 5- Significance of MXene in Tissue Engineering - a Review
Chapter 6- MXene Marvels: Exploring the Insights and Applications of
MXene-Based Materials in Wearable Technology for Healthcare System
Chapter 7- Emerging 2d Titanium Carbide MXene in Tissue Regeneration for
Healthcare Applications
Chapter 8- MXene-Based Therapeutics Agents
Chapter 9- MXene-Based Materials for Wound Healing
Sarika Verma is currently working as Senior Principal Scientist and IP Coordinator at CSIR-Advanced Materials and Processes Research Institute (AMPRI), Bhopal, India. She has more than 16 years of experience in Research and Teaching in CSIR and CSIR-AMPRI, Bhopal Govt. of India, and other organizations. She was awarded a PhD in chemical sciences from Barakatullah University, India. She has 25 patents filed and has been intensively engaged in multiple R&D projects to design and develop advanced materials useful for different broad application spectrums such as cement free materials, radiation- shielding materials, polymeric composites, and biomedical and energy materials via novel techniques, such as 3D printing. She also has experience in transferring the know-how technology to industries like m/s Permalli Wallace, Apte Medical Systems, Pune.
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