Nanowire: Exploring the Frontiers of Electrical Conductivity at the Nanoscale

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