Concept

Interstitial defect

Related lectures (27)

Defects in Crystals: Point Defects and Dislocations

Explores point defects and dislocations in crystals, highlighting their impact on material properties and the importance of energy relaxation.

Defects in Electronic Materials

Delves into the impact of defects in electronic materials, exploring band tails, XPS analysis, and defect creation mechanisms.

Defect Creation in Large Area Electronic Materials

Explores defect creation in large area electronic materials, focusing on amorphous silicon and discussing doping efficiency, estimated defect density, and light-induced defects.

Weak Bond Model: Defects in Electronic Materials

Explores equilibrium defect densities, band tail models, and defect creation in electronic materials.

Defects in 2D Materials

Delves into common defects in 2D materials, their impact on transistor characteristics, formation energy, transport behavior, and van der Waals epitaxy.

Transport & Recombination

Explores transport, recombination, dark conductivity, and photoconductivity in electronic materials, emphasizing the significance of recombination mechanisms in semiconductors.

Excitons, Luminescence and LEDs

Explores excitons, luminescence, and LEDs, including their formation, impact on carrier density, and working principles.

Order-Disorder Transformations

Explores electron-dominated structures of order, superlattices observation, and disorder-order transformations' impact on mechanical properties.

Defect Kinetics: Annealing and Saturation

Explores defect kinetics, annealing, saturation, and light-induced defect creation in electronic materials.

Weak Bond Model: Electronic Materials

Introduces the weak bond model for electronic materials, focusing on molecular orbitals and defect formation.

Efficient Data Clustering

Covers efficient data exploitation through clustering methods and the optimization of market returns using asset clustering.

Diffusion in Materials Science

Covers the concept of diffusion in materials science and its various applications.

PN Junctions and Heterostructures: Principles and Applications

Discusses the principles of pn junctions and heterostructures in semiconductor physics, focusing on their electrical characteristics and practical applications.

Electrical Properties of Ionic Materials

Explores the electrical properties of ionic materials, their resistivity, ion mobility, and conductivity.

Real Surfaces: Defects and Reconstructions

Explores the difference between ideal and real surfaces, defects, and surface reconstructions.

Defects in 2D Materials

Explores common defects in 2D materials, their impact on device performance, and strategies for defect healing and positive applications.

Metal Alloys: Structure and Properties

Explores the structure of metal alloys, coordination of atoms, phases at different temperatures, and the arrangement of atoms in nanocrystals.

Diffusion Mechanisms in Solids

Explores diffusion mechanisms in solids, including vacancy and interstitial mechanisms, correlation between jumps, and structural influences on diffusion.

Diffusion Mechanisms in Solids

Explores diffusion mechanisms in solids, including simple, vacancy, and interstitial mechanisms, cubic and non-cubic structures, and the calculation of diffusion coefficients.

Crystal Systems: Unit Cells and Symmetry

Explores crystal systems, unit cells, symmetry, and close-packed structures in solid state chemistry.

Related lectures (27)

Defects in Crystals: Point Defects and Dislocations

Explores point defects and dislocations in crystals, highlighting their impact on material properties and the importance of energy relaxation.

Defects in Electronic Materials

Delves into the impact of defects in electronic materials, exploring band tails, XPS analysis, and defect creation mechanisms.

Defect Creation in Large Area Electronic Materials

Explores defect creation in large area electronic materials, focusing on amorphous silicon and discussing doping efficiency, estimated defect density, and light-induced defects.

Weak Bond Model: Defects in Electronic Materials

Explores equilibrium defect densities, band tail models, and defect creation in electronic materials.

Defects in 2D Materials

Delves into common defects in 2D materials, their impact on transistor characteristics, formation energy, transport behavior, and van der Waals epitaxy.

Transport & Recombination

Explores transport, recombination, dark conductivity, and photoconductivity in electronic materials, emphasizing the significance of recombination mechanisms in semiconductors.

Excitons, Luminescence and LEDs

Explores excitons, luminescence, and LEDs, including their formation, impact on carrier density, and working principles.

Order-Disorder Transformations

Explores electron-dominated structures of order, superlattices observation, and disorder-order transformations' impact on mechanical properties.

Defect Kinetics: Annealing and Saturation

Explores defect kinetics, annealing, saturation, and light-induced defect creation in electronic materials.

Weak Bond Model: Electronic Materials

Introduces the weak bond model for electronic materials, focusing on molecular orbitals and defect formation.

Efficient Data Clustering

Covers efficient data exploitation through clustering methods and the optimization of market returns using asset clustering.

Diffusion in Materials Science

Covers the concept of diffusion in materials science and its various applications.

PN Junctions and Heterostructures: Principles and Applications

Discusses the principles of pn junctions and heterostructures in semiconductor physics, focusing on their electrical characteristics and practical applications.

Electrical Properties of Ionic Materials

Explores the electrical properties of ionic materials, their resistivity, ion mobility, and conductivity.

Real Surfaces: Defects and Reconstructions

Explores the difference between ideal and real surfaces, defects, and surface reconstructions.

Defects in 2D Materials

Explores common defects in 2D materials, their impact on device performance, and strategies for defect healing and positive applications.

Metal Alloys: Structure and Properties

Explores the structure of metal alloys, coordination of atoms, phases at different temperatures, and the arrangement of atoms in nanocrystals.

Diffusion Mechanisms in Solids

Explores diffusion mechanisms in solids, including vacancy and interstitial mechanisms, correlation between jumps, and structural influences on diffusion.

Diffusion Mechanisms in Solids

Explores diffusion mechanisms in solids, including simple, vacancy, and interstitial mechanisms, cubic and non-cubic structures, and the calculation of diffusion coefficients.

Crystal Systems: Unit Cells and Symmetry

Explores crystal systems, unit cells, symmetry, and close-packed structures in solid state chemistry.