This book presents the fundamental aspects, recent developments in fabrication and characterization techniques, structure, properties, and emerging applications of MXenes. It shows the advancement in scale-up, challenges, and their futuristic perspectives. An overview of all the latest developments in energy storage and conversion applications, catalysis, environmental remediation, and radiation shielding, etc is reported.
MXenes and their Composites: Synthesis, Properties and Potential Applications presents a state of the art overview of the recent developments on the synthesis, functionalization, properties and emerging applications of two-dimensional (2D) MXenes and their composites.The book systematically describes the state-of-the-art knowledge and fundamentals of MXene synthesis, structure, surface chemistry and functionalization. The book also discusses the unique electronic, optical, mechanical and topological properties of MXenes. Besides, this book covers the various emerging applications of MXenes and their composites across different fields such as energy storage and conversion, gas sensing and biosensing, rechargeable lithium and sodium-ion batteries, lithium-sulphur and multivalent batteries, electromagnetic interference shielding, hybrid capacitors and supercapacitors, hydrogen storage, catalysis and photoelectrocatalysis, gas separation and water desalination, environmental remediation and medical and biomedical applications. All these applications have been efficiently discussed in the specific chapters and in each case, the processing of MXene composites has also been discussed.This book will be an excellent reference for scientists and engineers across various disciplines and industries working in the field of highly promising 2D MXenes and their composites. The book will also act as a guide for academic researchers, material scientists, and advanced students in investigating the new applications of 2D MXenes based materials. - Covers fundamentals of technologically important MAX phases, MXene derivatives, MXene synthesis methods, intercalation and delamination strategies, surface functionalization, fundamental characteristics and properties - Demonstrates major application areas of MXenes, including catalytic, energy storage and energy generation, flexible electronics, EMI shielding, sensors and biosensors, medical and biomedical, gas separation and water desalination - Presents a detailed discussion on the processing and performance of various MXenes towards different applications
This book describes the rapidly expanding field of two-dimensional (2D) transition metal carbides and nitrides (MXenes). It covers fundamental knowledge on synthesis, structure, and properties of these new materials, and a description of their processing, scale-up and emerging applications. The ways in which the quickly expanding family of MXenes can outperform other novel nanomaterials in a variety of applications, spanning from energy storage and conversion to electronics; from water science to transportation; and in defense and medical applications, are discussed in detail.
Approx.630 pages Covers fundamentals of MXene-based hybrid nanostructures, including synthesis and characterization methods Explores innovative and emerging applications, with a focus on environmental remediation and sensors Addresses challenges, such as environmental impact and lifecycle, as well as future possibilities
MXenes are a new family of two-dimensional (2D) metal carbides, having properties such as metallic conductivity and hydrophilicity. Adding polymer binders/spacers between atomically thin MXene layers or reinforcing polymers with MXenes results in composite films that have excellent flexibility, good tensile and compressive strengths, and electrical conductivity. This book covers all advances in the field of MXene-filled polymer nanocomposites to date, illustrating fabrication and characterization, and specific properties like anti-healing, anti-friction, and microwave absorption. It further covers potential applications like energy conversion, storage systems, antibacterial, and drug delivery. The book features: exclusive material on MXene-based polymer nanocomposites properties and potential applications of polymers upon addition of MXenes the effect of MXenes on various thermoplastic and elastomer polymers a focus on the properties, fabrications methods, and applications of relevant polymer matrices; and extensive coverage of the role of MXenes in polymers This book is aimed at researchers, professionals, and graduate students in material science, polymer engineering, electronic materials, composites, chemical processing, chemical sciences, fire engineering, and biomedicine.
This book covers the current, state-of-the-art knowledge, fundamental mechanisms, design strategies, and future challenges in electrochemical energy storage devices using polymeric materials. It looks into the fundamentals and working principles of electrochemical energy devices such as supercapacitors and batteries and explores new approaches for the synthesis of polymeric materials and their composites to broaden the vision for researchers to explore advanced materials for electrochemical energy applications. All the chapters are written by leading experts in these areas making it suitable as a reference for students as well as provide new directions to researchers and scientists working in polymers, energy, and nanotechnology.
Fundamentals and Applications of Supercapacitor 2D Materials covers different aspects of supercapacitor 2D materials, including their important properties, synthesis, and recent developments in supercapacitor applications of engineered 2D materials. In addition, theoretical investigations and various types of supercapacitors based on 2D materials such as symmetric, asymmetric, flexible, and micro-supercapacitors are covered. This book is a useful resource for research scientists, engineers, and students in the fields of supercapacitors, 2D nanomaterials, and energy storage devices. Due to their sub-nanometer thickness, 2D materials have a high packing density, which is suitable for the fabrication of highly-packed energy supplier/storage devices with enhanced energy and power density. The flexibility of 2D materials, and their good mechanical properties and high packing densities, make them suitable for the development of thin, flexible, and wearable devices. Explores recent developments and looks at the importance of 2D materials in energy storage technologies Presents both the theoretical and DFT related studies Discusses the impact on performance of various operating conditions Includes a brief overview of the applications of supercapacitors in various industries, including aerospace, defense, biomedical, environmental, energy, and automotive
3D Printing: Fundamentals to Emerging Applications discusses the fundamentals of 3D-printing technologies and their emerging applications in many important sectors such as energy, biomedicals, and sensors. Top international authors in their fields cover the fundamentals of 3D-printing technologies for batteries, supercapacitors, fuel cells, sensors, and biomedical and other emerging applications. They also address current challenges and possible solutions in 3D-printing technologies for advanced applications. Key features: Addresses the state-of-the-art progress and challenges in 3D-printing technologies Explores the use of various materials in 3D printing for advanced applications Covers fundamentals of the electrochemical behavior of various materials for energy applications Provides new direction and enables understanding of the chemistry, electrochemical properties, and technologies for 3D printing This is a must-have resource for students as well as researchers and industry professionals working in energy, biomedicine, materials, and nanotechnology.
The impact of COVID-19, the infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), is ongoing. In the wake of the Delta and Omicron variants – at the time of writing, April 2022, the most impactful and fastest spreading Variants of Concern (VOCs) - it is increasingly apparent that the scientific community must continue striving to mitigate the many clinical and public health management challenges arising from the pandemic.
MXenes as Surface-Active Advanced Materials: From Basic Research to Industrial and Biomedical Applications covers numerous aspects of the basic science and applications of MXenes, including synthesis, classification, structure, and properties, as well as applications in gas storage and separation, environment and catalysis, tribology, biomedicine, and more. The first part of the book focuses on the characterization, synthesis and properties of MXenes, including surface/ interface chemistry properties as well as metal- MXenes interaction. The second part illustrates the current and potential applications of these nanomaterials within industry and biomedicine. These include a through discussion of surface chemistry and surface interaction of MXenes with different materials, and the definition of the current and future applications based on the MXenes surface chemistry. This book provides a complete exploration of surface and interface applications of MXenes, highlighting established research and future perspectives, and is a valuable resource to scientists and professionals in the field of material science, nanotechnology, and 2D material chemistry. - Discusses fundamental characteristics, properties, synthesis methods, and processing techniques of MXenes - Provides state-of–the-art information on the most recent advances, including theoretical and experimental studies and new applications - Includes recent studies concerning surface chemistry and surface interaction of MXenes with different materials
