This book presents a detailed study of different approaches to synthesis for 2D Borophene, its peculiar properties, and its use in different applications such as energy storage, catalysis, hydrogen evolution reactions, supercapacitors, optoelectronics, sensors, diagnostics, bioimaging, drug delivery, cancer therapy, and various other practical applications.
This book presents a detailed study of different approaches to synthesis for 2D Borophene, its peculiar properties, and its use in different applications such as energy storage, catalysis, hydrogen evolution reactions, supercapacitors, optoelectronics, sensors, diagnostics, bioimaging, drug delivery, cancer therapy, and various other practical 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 thesis focuses on the study of phonon polaritons-hybrids of infrared light and lattice vibrations-in van der Waals polar materials, particularly strongly anisotropic (hyperbolic) ones.
This book describes the quantized thermal conductance measurements of integer and several fractional quantum Hall (QH) states realized in graphene devices.
This book describes the quantized thermal conductance measurements of integer and several fractional quantum Hall (QH) states realized in graphene devices.
This thesis focuses on the study of phonon polaritons-hybrids of infrared light and lattice vibrations-in van der Waals polar materials, particularly strongly anisotropic (hyperbolic) ones.
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 serves as a comprehensive guide for both beginners and researchers, offering insights into the diverse array of electrochemical devices and their intricate dependencies.
This book serves as a comprehensive guide for both beginners and researchers, offering insights into the diverse array of electrochemical devices and their intricate dependencies.
This book highlights the history of electroceramics starting from synthesis using different routes of the solid solution to hybrid nanocomposites and its applications in different renewable energy, thermistor, actuators, thermoelectric, thermo-optic, sensor, and much more applications in electronic industry.
This book highlights the history of electroceramics starting from synthesis using different routes of the solid solution to hybrid nanocomposites and its applications in different renewable energy, thermistor, actuators, thermoelectric, thermo-optic, sensor, and much more applications in electronic industry.
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 delves into the cutting-edge applications of graphene-based photocatalysts, unveiling their immense potential in addressing two critical global challenges: sustainable hydrogen production and environmental remediation.
This book delves into the cutting-edge applications of graphene-based photocatalysts, unveiling their immense potential in addressing two critical global challenges: sustainable hydrogen production and environmental remediation.
This book comprises selected articles from the 2nd International Conference on Advanced Nanomaterials and Applications (ICANA 2024) held from 10 to 12 July at Amaravati in India.
This book comprises selected articles from the 2nd International Conference on Advanced Nanomaterials and Applications (ICANA 2024) held from 10 to 12 July at Amaravati in India.
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.
Collective excitations in matter, either in the form of plasmons in metals or Mie resonances in high-index dielectrics, constitute fundamental building blocks for photonic applications, including optical and quantum communications, biosensing, and polaritonic chemistry.
Collective excitations in matter, either in the form of plasmons in metals or Mie resonances in high-index dielectrics, constitute fundamental building blocks for photonic applications, including optical and quantum communications, biosensing, and polaritonic chemistry.
This book presents the results of research on the regularities during thermocyclic impact on changes in structural-phase states of functional alloys with low-stability or instability in the area of structural-phase transformations.
This book provides a clear and lucid introduction to the field of non-reciprocal supercurrent transport in Josephson junctions, particularly the Josephson diode effect in junctions fabricated from mechanically exfoliated transition metal dichalcogenides and its microscopic mechanism.
This textbook provides a comprehensive overview of biomimetics and biologically inspired materials, capturing the essence of innovation that draws inspiration from nature.
This book summarizes various scalable and cost-effective techniques to fabricate different 2D materials beyond graphene including, but not limited to, transition metal dichalcognides (TMDs), MXenes, Transition Metal Oxides (TMOs), etc.
This book summarizes various scalable and cost-effective techniques to fabricate different 2D materials beyond graphene including, but not limited to, transition metal dichalcognides (TMDs), MXenes, Transition Metal Oxides (TMOs), etc.
This book presents a comprehensive experimental investigation, consisting of element scale-triaxial and simple shear tests and model scale-shaking table tests, to examine the monotonic and cyclic behavior of Skopje sand.
This book presents the latest advancements in various synthetic techniques, properties, characterization, and efficient applications of CNT-polymer nanocomposites.
This book presents the latest advancements in various synthetic techniques, properties, characterization, and efficient applications of CNT-polymer nanocomposites.
This book provides an insight into spin-triplet superconductivity, which rapidly becomes better understood in recent years, from the perspective of a microscopic measurement technique called nuclear magnetic resonance (NMR).
This book provides an insight into spin-triplet superconductivity, which rapidly becomes better understood in recent years, from the perspective of a microscopic measurement technique called nuclear magnetic resonance (NMR).
This book presents (1) a tour through the complex and mesmerizing world of molecular interactions without recourse to complicated theoretical derivations and (2) an attempt to close the existing academia-industry knowledge and expertise gap by providing a pathway to convert complex theories into real products that would be of use to industry and also enhance the quality of life.
This book presents (1) a tour through the complex and mesmerizing world of molecular interactions without recourse to complicated theoretical derivations and (2) an attempt to close the existing academia-industry knowledge and expertise gap by providing a pathway to convert complex theories into real products that would be of use to industry and also enhance the quality of life.
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.
