The scope of this book encompasses the design, fabrication, and characterization of MXene-based composite materials for various electrochemical sensing applications, including but not limited to environmental monitoring, biomedical diagnostics, and industrial process control. It further explores the synergistic effects of MXene composites and highlights the recent advancements in sensor performance and sensitivity achieved through their integration.
Features:
Comprehensively covers MXene-Based electrochemical sensors
Discusses strategies to fabricate MXene based sensor devices
Includes functionalization of MXene, device fabrication and electrochemical sensing of food additives and adulterants
Reviews industrially relevant topics including device fabrication using MXene-based composites
Explore the vast potential of MXenes in nanoelectronics, photonics, and flexible device technologies.
This book is aimed at researchers and graduate students in chemical engineering, materials science and engineering, chemistry, and electrochemistry.
Table of Contents:
Chapter 1 The Rise of MXenes – Synthesis and Properties Chapter 2 Evolution of MXene and its derivatives: Synthesis and characterisation Chapter 3 Expansion of MXenes over other 2D materials for electrochemical sensing applications Chapter 4 MXene Modified Electrochemical Sensors for Biosensing Chapter 5 Functionalised MXene Modified Electrochemical Sensors Chapter 6 Doped MXenes Synthesis and Their Electrochemical Sensing Applications Chapter 7 MXenes Metal Composites Based Electrochemical Sensors Chapter 8 MXene-Metal Oxide Based Electrochemical Sensors: Advancing Sensitivity and Selectivity in Electrochemical Detection Chapter 9 MXene – Metal Chalcogenides Composites Modified Electrochemical Sensors Chapter 10 MXene – Carbon Modified Electrochemical Sensors Chapter 11 MXene Metal Organic Frame Work Modified Electrochemical Sensors Chapter 12 MXene Based Devices for Wearable Electrochemical Sensors Chapter 13 MXene Based Self-Powered Electrochemical Sensors Chapter 14 Microfluidic Sensors in the Palette of Mxene Chapter 15 Strategies to Mitigate Bottlenecks in the Commercialization of Mxenes
About the Author :
P Abdul Rasheed received his PhD Degree from School of Nano Science and Technology at National Institute of Technology Calicut, India in 2015. After his PhD, He did postdoctoral fellowships at Korea University, South Korea and Qatar Environment and Energy research Institute, Doha, Qatar. Currently, he is a Ramaligaswmami Fellow at Department of Biological Sciences and Engineering at Indian Institute of Technology Palakkad, India. His research interests are electrochemistry, nanomaterial-based biosensors, Wearable sensors, MXenes and other 2D materials, biomarkers for neurological disorders, and Biomedical engineering. He has 46 publications in international peer reviewed journals.
Menon Ankitha graduated with First Rank for M.Sc. in Applied Chemistry from Mahatma Gandhi University, Kerala in the year 2019. She also completed her Bachelor’s degree (B.Sc.) in Chemistry with University Rank in 2017. Ankitha Menon has received honors from Smt. Smriti Irani, Minister in the Union Cabinet of India for her higher secondary academic performances. She joined as full-time research scholar at Indian Institute of Technology research group in fall 2022. She is currently working on surface modification of MXene and has a general research interest in the field of synthesis of nanomaterial-based composites for electrochemical sensors and environmental remediation.
Ajith Mohan Arjun obtained his PhD from National Institute of Technology Calicut, India and his research topic was biofuel cells based on carbon nanostructures. He worked as postdoctoral researcher in the Department of Biological Sciences and Engineering at Indian Institute of Technology Palakkad in MXene based electrochemical sensors. He was working as a postdoctoral researcher at the University of Virginia from 2022 to 2023, where his work was focused on the development of wearable aptamer sensing devices for the detection of cortisol from dermal interstitial fluid, which was an Airforce Research Laboratory funded project. He is currently working as a postdoctoral researcher at Swansea University where his work focuses on the detection of Alzheimer’s disease biomarkers from dermal interstitial fluid and blood in collaboration with teams from Imperial College London, University of Glasgow, from United Kingdom and Tokyo University of Agriculture and Technology, and National Institutes for Quantum and Radiological Science and Technology in Japan. His research interests are electrochemical biosensors, enzyme fuel cells, and wearable electrochemical sensors which involve the use of nanomaterials.
