Interconnects Carbon Nanotubes

“Interconnects Carbon Nanotubes” is an essential exploration into the fascinating world of nanoelectronics. This groundbreaking book delves into the role of carbon nanotubes in modern interconnect technology, providing a detailed analysis of their applications and potential in improving electronic devices. Offering a rich blend of theoretical knowledge and practical applications, it serves as a mustread for professionals, students, and enthusiasts eager to understand how these microscopic structures are revolutionizing the field of electronics

Carbon nanotubes in interconnects-Explores the potential of carbon nanotubes (CNTs) as interconnect materials, addressing their efficiency and scalability

Vertically aligned carbon nanotube arrays-Discusses the fabrication and advantages of vertically aligned CNTs for electronic applications

Nanotube membrane-Examines CNT membranes and their role in filtration, sensing, and energy storage technologies

Carbon nanotube-Focuses on the fundamental properties of CNTs, including their strength, conductivity, and mechanical behavior

Nanocomposite-Investigates the use of CNTs in nanocomposites, enhancing the properties of materials for various applications

Thermal transport in nanostructures-Analyzes the thermal conductivity of CNTs, which is essential for efficient heat dissipation in electronics

Potential applications of carbon nanotubes-Highlights the broad spectrum of CNT applications, from electronics to medicine and energy

Copper interconnects-Discusses the role of copper in current interconnect technology and how CNTs could potentially replace copper in certain applications

Transparent conducting film-Looks into CNTs’ role in the creation of transparent conducting films for nextgeneration displays and touch screens

Thermoelectric materials-Examines CNTs as thermoelectric materials, offering efficient energy conversion for a variety of devices

Carbon nanotube fieldeffect transistor-Delves into the design and advantages of CNTbased fieldeffect transistors for highperformance computing

Hybrid solar cell-Investigates the use of CNTs in enhancing hybrid solar cells for more efficient energy production

Carbon nanotubes in photovoltaics-Analyzes how CNTs can improve the performance and longevity of photovoltaic devices

Carbon nanofiber-Focuses on carbon nanofibers and their potential in sensors, energy storage, and lightweight composites

Nanoarchitectures for lithiumion batteries-Discusses CNTbased architectures for improving the performance of lithiumion batteries

Nanoelectromechanical systems-Explores the role of CNTs in nanoelectromechanical systems, focusing on their use in sensors and actuators

Carbon nanotube supported catalyst-Investigates CNTs as a support for catalysts in chemical reactions, enhancing efficiency in various industries

Interfacial thermal resistance-Analyzes the interfacial thermal resistance between CNTs and other materials, crucial for thermal management in electronics

Boron nitride nanotube-Examines boron nitride nanotubes as a potential alternative to CNTs in certain hightemperature applications

Chemiresistor-Discusses the use of CNTs in chemiresistors for gas detection and environmental monitoring

Electromigration-Explores the impact of electomigration on CNT interconnects, a critical aspect of their reliability in electronics