Shape Memory Polymer-Derived Nanocomposites
Materials, Properties, and Applications
- 1 Edición - 10 de enero de 2024
- Última edición
- Autor: Ayesha Kausar
- Idioma: Inglés
Shape Memory Polymer derived Nanocomposites: Materials, Properties, and Applications summarizes fundamentals and applications of shape memory polymer derived nanocompo… Leer más
Descripción
Descripción
Shape Memory Polymer derived Nanocomposites: Materials, Properties, and Applications summarizes fundamentals and applications of shape memory polymer derived nanocomposites. The book presents a state-of-the-art assessment, including updates on their flexibility, durability, heat stability, shape deformability, and the shape memory features of these polymers. Essential categories of the stimuli-responsive polymer-based nanocomposites are discussed in terms of recent scientific literature, and subsequent sections of the book are dedicated to the potential of shape memory polymer-based nanocomposite in various technical fields.
Puntos claves
Puntos claves
- Provides the essentials of shape memory polymeric nanocomposites
- Includes important categories of shape memory nanocomposites
- Presents current technological applications of shape memory polymers and derived nanocomposite in sponges, aerospace, EMI shielding, ionizing radiation shielding, sensors, actuator, supercapacitor, electronics, and biomedical fields
De interès para
De interès para
Academia: Researchers and advanced students across nanotechnology, polymer science, composite materials, chemistry, electronics, biomedicine, materials science, and engineering Industry: Scientists, engineers, and R&D professionals with an interest in shape memory polymers and their nanocomposites, for advanced applications (electronics, sensors, textiles, biomedicine, etc.)
Índice
Índice
1. Shape memory polymers: Mechanism, structure, and properties
2. Shape memory polymer-based nanocomposites
3. Polyurethane in shape memory nanomaterials
4. Epoxy-based nanocomposites as emerging stimuli-responsive materials
5. Perspectives on stimuli-sensitive polyester nanocomposites
6. Shape memory polystyrene and trans-1,4-polyisoprene (TPI) derived nanocomposites
7. Cutting-edge shape memory nanocomposite sponges
8. Shape memory nanomaterials in aerospace
9. Electromagnetic interference shielding and ionizing radiation shielding effect of stimuli-responsive nanocomposites
10. Multipurpose shape memory nanocomposites: Sensors, actuators, supercapacitors, electronics, and smart textiles
11. Versatile shape memory nanocomposites: Technological platform for biomedical applications
12. Modelling and simulation for shape memory nanocomposites
13. Future of shape memory nanocomposites: 3D and 4D printing, sustainability, and green nanomaterials
2. Shape memory polymer-based nanocomposites
3. Polyurethane in shape memory nanomaterials
4. Epoxy-based nanocomposites as emerging stimuli-responsive materials
5. Perspectives on stimuli-sensitive polyester nanocomposites
6. Shape memory polystyrene and trans-1,4-polyisoprene (TPI) derived nanocomposites
7. Cutting-edge shape memory nanocomposite sponges
8. Shape memory nanomaterials in aerospace
9. Electromagnetic interference shielding and ionizing radiation shielding effect of stimuli-responsive nanocomposites
10. Multipurpose shape memory nanocomposites: Sensors, actuators, supercapacitors, electronics, and smart textiles
11. Versatile shape memory nanocomposites: Technological platform for biomedical applications
12. Modelling and simulation for shape memory nanocomposites
13. Future of shape memory nanocomposites: 3D and 4D printing, sustainability, and green nanomaterials
Detalles del producto
Detalles del producto
- Edición: 1
- Última edición
- Publicado: 10 de enero de 2024
- Idioma: Inglés
Sobre el autor
Sobre el autor
AK
Ayesha Kausar
Prof. Dr. Ayesha Kausar is affiliated with the National Centre for Physics, Islamabad, Pakistan. Her current research interests include the design, fabrication, characterization, and exploration of structure-property relationships and potential applications of nanocomposites, polymeric composites/nanocomposites, nanoparticles/polymeric nanoparticles, quantum dots, nanocarbons (such as graphene, carbon nanotubes, nanodiamonds, fullerenes), inorganic/hybrid materials, nanofibers, and nano-foam architectures. Dr. Kausar has made extensive contributions to the fields of nanomaterials and materials science, with numerous scientific publications in international peer-reviewed journals. She has authored multiple monographs on topics ranging from carbon nano-onions and graphene quantum dots to polymer-based nanocomposites and conducting polymer nanocomposites. Additionally, she has contributed chapters to a large number of international books and encyclopedias. Her work has been recognized in recent years by inclusion in the world’s top 2% of scientists in materials science and nanotechnology, according to surveys conducted by Stanford University.
Afiliaciones y experiencia
Professor and Researcher, National Centre for Physics, Islamabad, PakistanVer libro en ScienceDirect
Ver libro en ScienceDirect
Lee Shape Memory Polymer-Derived Nanocomposites en ScienceDirect