This book highlights the utilization of biomaterials as emerging suitable and effective flame retardants (FRs) to replace most of the conventional FRs (e.
This book highlights the utilization of biomaterials as emerging suitable and effective flame retardants (FRs) to replace most of the conventional FRs (e.
This book is a thorough guide tailored for researchers, academics, and practitioners immersed in the intricate world of Transmission Electron Microscopy (TEM).
This book, the 14th of 15 related monographs on Cubic Dynamical Systems, discusses crossing and product cubic systems with a self-linear and crossing-quadratic product vector field.
This book, the 14th of 15 related monographs on Cubic Dynamical Systems, discusses crossing and product cubic systems with a self-linear and crossing-quadratic product vector field.
This book presents a generalized version of the classical Kelvin-Helmholtz instability, a useful tool which allows for new approaches when studying stability problems in fluid mechanics, as well as its important applications.
This book is one of a series of five volumes forming an integrated, self-study course on silicon device physics, modes of operation, characterization, and fabrication.
This book highlights a comprehensive exposition of recent advancements and research in green materials and electronic packaging interconnect technology.
This textbook introduces topological defects and solitons at a level suitable for advanced undergraduates and beginning graduate students in physics and materials science.
The book explores the properties and behaviors of high-critical-temperature superconductors in the yttrium barium copper oxide (YBCO) system, looking specifically at Y0.
This book focuses on the Jet Transport (JT) technique and gives a systematic introduction on its theory development, algorithm implementation, and in particular, the applications in the field of astronautics including uncertainty propagation, filtering, as well as guidance and control.
This book, the fifth of 15 related monographs, presents systematically a theory of product-cubic nonlinear systems with constant and single-variable linear vector fields.
This book describes in detail the reported synthesis methods of inorganic perovskite semiconductors, including nanocrystal, films, and single crystals.
This book presents peer reviewed articles from the International Conference on Fundamental and Industrial Research on Materials- iConFIRM 2023; held from 11th to 14th Dec at Ropar in India.
This book highlights the fundamentals and recent advances for developing novel polymer composites for various applications, including 3D printing, automotive, textiles, agriculture, nanogenerators, energy storage and biomedical engineering.
This book highlights the fundamentals and recent advances for developing novel polymer composites for various applications, including 3D printing, automotive, textiles, agriculture, nanogenerators, energy storage and biomedical engineering.
This advanced textbook provides an exhaustive review of topics of immense importance to the fundamental understanding of physics of materials at high pressures.
This advanced textbook provides an exhaustive review of topics of immense importance to the fundamental understanding of physics of materials at high pressures.
This book leads the reader from the well-established wave description of polaritons to their particle description to quantify the polariton contribution to the heat transport along polar and metallic nanofilms, nanowires, and cavities.
This book highlights the photogalvanic effects at low dimensions, surfaces, and interfaces, more specifically 2D materials, such as graphene and monolayer transition metal dichalcogenides.
This book presents various design theories and methodologies for silicon-based high-sensitivity broadband receivers, including millimeter-wave radiometer chips and photoelectric receivers, which are core elements in imaging systems, data centers, and telecommunication infrastructures.
This book presents various design theories and methodologies for silicon-based high-sensitivity broadband receivers, including millimeter-wave radiometer chips and photoelectric receivers, which are core elements in imaging systems, data centers, and telecommunication infrastructures.
This book highlights the photogalvanic effects at low dimensions, surfaces, and interfaces, more specifically 2D materials, such as graphene and monolayer transition metal dichalcogenides.
This book reflects on 8 decades of research on one of the longest-standing unsolved problems in modern astrophysics: why does the Sun form a hot corona?
This book reflects on 8 decades of research on one of the longest-standing unsolved problems in modern astrophysics: why does the Sun form a hot corona?
This book highlights a comprehensive review of synthesis, properties, and strategies to improve the applicability of 2D materials like graphene, borophenes, metal nanosheets, phosphorene, and transition metal dichalcogenides (TMDs).
This textbook serves to supplement existing quantum mechanics courses with the WKB (Wentzel-Kramers-Brillouin) theory for recently discovered Dirac materials, such as graphene, a dice lattice, and alpha-T3 materials.
This book highlights a comprehensive review of synthesis, properties, and strategies to improve the applicability of 2D materials like graphene, borophenes, metal nanosheets, phosphorene, and transition metal dichalcogenides (TMDs).
