Electron beam induced epitaxial crystallization in a conducting and insulating a-LaAlO3/SrTiO3 system

Authors
Lee, GwangyeobMoon, Seon YoungKim, JinyeonBaek, Seung-HyubKim, Do HyangJang, Ho WonChang, Hye Jung
Issue Date
2017-08
Publisher
ROYAL SOC CHEMISTRY
Citation
RSC ADVANCES, v.7, no.64, pp.40279 - 40285
Abstract
Interfacial conductivity at the interface between two insulating oxides, that is 2DEG, shows a number of intriguing properties and applications, such as on/off switching with external electric fields, use in nanoscale electronic devices and tunable conductivity. Here, we report the effect of the interfacial conductivity on the kinetic behavior of electron-beam-induced epitaxial crystallization of an oxide amorphous thin film on an SrTiO3 substrate. Epitaxial growth from the interface can occur without direct e-beam irradiation at the interface due to accumulated charge around the beam position in the insulating materials. 2DEG, which acts as a current path delays the crystallization kinetics, thus delicate control of the crystallized pattern shape and size is available. As a result, successful pattern writing with a width of about 5 nm was performed. The present work provides useful guidelines for coherent atomic scale e-beam patterning considering the critical distance of the electron beam from the interface for the epitaxial growth, e-beam dose rate effect on the growth rate and the heterostructure interfacial conductivity.
Keywords
RESOLUTION LIMITS; RADIATION-DAMAGE; LITHOGRAPHY; GRAPHENE; FILMS; IRRADIATION; FABRICATION; INTERFACES; GAS; SI; RESOLUTION LIMITS; RADIATION-DAMAGE; LITHOGRAPHY; GRAPHENE; FILMS; IRRADIATION; FABRICATION; INTERFACES; GAS; SI
ISSN
2046-2069
URI
https://pubs.kist.re.kr/handle/201004/122481
DOI
10.1039/c7ra06353a
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KIST Article > 2017
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