Litcius/Paper detail

Defect-Related Etch Pits on Crystals and Their Utilization

Dongzhu Lu, Quantong Jiang, Xiumin Ma, Qichao Zhang, Xiaole Fu, Liang Fan

2022Crystals28 citationsDOIOpen Access PDF

Abstract

Etch pits could form on an exposed surface of a crystal when the crystal is exposed to an etching environment or chemicals. Due to different dissolution rates along various crystalline directions in a crystal, the dissolution process is anisotropic; hence, etch pits usually have a regular shape. Here, the morphology and origin of the regular-shaped etch pits are discussed firstly; then, factors which could affect the morphology and density of etch pits are shown; finally, the state of the art of etch pit technology and the utilization of etch pits is presented. Traditionally, etch pits are utilized to evaluate the dislocation density and some defect-related properties. Now, in the modern fabrication industries, the relationship between etch pits and defects has been utilized more skillfully. High-quality crystals can be fabricated by controlling dislocations revealed by etch pits. Meanwhile, with the as-revealed dislocation as the diffusion path of atoms, new crystals will emerge in corresponding etch pits.

Topics & Concepts

Etch pit densityDissolutionMaterials scienceDislocationEtching (microfabrication)Crystal (programming language)FabricationCrystallographyDiffusionMorphology (biology)Composite materialChemistryGeologyComputer sciencePathologyThermodynamicsLayer (electronics)Programming languagePhysicsPhysical chemistryAlternative medicineMedicinePaleontologyAnodic Oxide Films and NanostructuresNanowire Synthesis and ApplicationsSemiconductor materials and interfaces
Defect-Related Etch Pits on Crystals and Their Utilization | Litcius