Litcius/Paper detail

Growth of single crystalline films on lattice-mismatched substrates through 3D to 2D mode transition

Naho Itagaki, Yuta Nakamura, Ryota Narishige, Keigo Takeda, Kunihiro Kamataki, Kazunori Koga, Masaru Hori, Masaharu Shiratani

2020Scientific Reports50 citationsDOIOpen Access PDF

Abstract

Regarding crystalline film growth on large lattice-mismatched substrates, there are two primary modes by which thin films grow on a crystal surface or interface. They are Volmer-Weber (VW: island formation) mode and Stranski-Krastanov (SK: layer-plus-island) mode. Since both growth modes end up in the formation of three-dimensional (3D) islands, fabrication of single crystalline films on lattice-mismatched substrates has been challenging. Here, we demonstrate another growth mode, where a buffer layer consisting of 3D islands initially forms and a relaxed two-dimensional (2D) layer subsequently grows on the buffer layer. This 3D-2D mode transition has been realized using impurities. We observed the 3D-2D mode transition for the case of ZnO film growth on 18%-lattice-mismatched sapphire substrates. First, nano-sized 3D islands grow with the help of nitrogen impurities. Then, the islands coalesce to form a 2D layer after cessation of the nitrogen supply, whereupon an increase in the surface energy may provide a driving force for the coalescence. Finally, the films grow in 2D mode, forming atomically flat terraces. We believe that our findings will offer new opportunities for high-quality film growth of a wide variety of materials that have no lattice-matched substrates.

Topics & Concepts

Materials scienceCoalescence (physics)Lattice (music)SapphireImpurityThin filmNanotechnologyChemical physicsCrystal structureIsland growthCrystallographyLayer (electronics)OpticsEpitaxyChemistryLaserPhysicsAcousticsAstrobiologyOrganic chemistryZnO doping and propertiesElectronic and Structural Properties of OxidesGas Sensing Nanomaterials and Sensors