Nanowire

“Nanowire” is a pivotal work in the field of nanoelectronics, offering a comprehensive exploration of the scientific principles and cuttingedge technologies driving innovation in nanowire research and applications. Authored by Fouad Sabry, this book bridges the gap between theory and practice, making it an indispensable resource for professionals, students, and enthusiasts alike. Whether you're a researcher looking to deepen your expertise or a student seeking clarity on complex nanoelectronics topics, this book will enhance your understanding of how nanowires are shaping the future of technology. By addressing both fundamental concepts and their practical applications, “Nanowire” provides a holistic view of the field, making it a mustread for anyone involved in nanoelectronics

Nanowire-The chapter introduces the foundational principles of nanowires, exploring their unique properties and relevance in nanoelectronics

Nanochemistry-This chapter delves into the chemical aspects of nanowires, discussing the synthesis and manipulation of materials at the nanoscale

Quantum wire-An exploration of quantum wire properties, highlighting their role in electron transport and their applications in nanoelectronics

Cathodoluminescence-Focuses on cathodoluminescence and its significance in studying the optical properties of nanowires

Selfassembling peptide-Discusses the use of selfassembling peptides in nanowire fabrication, offering insight into their potential in biomedical applications

Mesoscopic physics-Introduces mesoscopic physics, discussing its relevance in understanding nanowire behavior and electron interactions

Nanomaterials-This chapter covers various nanomaterials and their integration into nanowire systems, emphasizing their applications in electronics

Indium(III) oxide-Explores the use of Indium(III) oxide in nanowire technologies, focusing on its electrical and optical properties

Plasmonic solar cell-A study of plasmonic solar cells, examining how nanowires enhance their efficiency for renewable energy applications

Quantum dot-Discusses quantum dots in relation to nanowires, highlighting their role in enhancing optical and electronic performance

Hybrid solar cell-Examines hybrid solar cells and the role of nanowires in improving their performance and efficiency

Core–shell semiconductor nanocrystal-This chapter covers coreshell semiconductor nanocrystals, with a focus on their integration in nanowirebased systems

Nanolaser-An indepth look at nanolasers, discussing their development and applications in optical communications and sensing

Nanoelectromechanical systems-Explores the intersection of nanowires and electromechanical systems, detailing their impact on miniaturized devices

Nanoelectronics-Focuses on the broader field of nanoelectronics, with nanowires serving as a key component in the next generation of electronic devices

Silicon nanowire-This chapter discusses silicon nanowires, their unique properties, and their potential for use in advanced electronic devices

Molecularbeam epitaxy-Covers the molecularbeam epitaxy technique for fabricating highquality nanowires, detailing its applications and challenges

Thermal transport in nanostructures-Analyzes thermal transport in nanowires and nanostructures, emphasizing its significance in device performance

Carbon peapod-A look at carbon peapods and their integration with nanowires, exploring their potential in energy storage and other applications

Carbon nanotubes in photovoltaics-This chapter explores how carbon nanotubes enhance the performance of photovoltaic devices when integrated with nanowires

QFET-Discusses the Quantum Field Effect Transistor (QFET), focusing on how nanowires play a crucial role in its operation and future development