The growth of ZnO crystals from the melt

TL;DR

This paper demonstrates that ZnO crystals can be grown from the melt using standard techniques by controlling the atmosphere's oxygen partial pressure, challenging previous assumptions about the difficulty of melting ZnO.

Contribution

It introduces a novel approach to melt-grown ZnO crystals through thermodynamic calculations and experiments, enabling growth in metallic crucibles with a self-adjusting oxygen atmosphere.

Findings

ZnO can be molten in metallic crucibles with proper atmosphere control

Thermodynamic calculations support melt growth of ZnO

Potential for using standard crystal growth techniques like Bridgman

Abstract

The peculiar properties of zinc oxide (ZnO) make this material interesting for very different applications like light emitting diodes, lasers, and piezoelectric transducers. Most of these applications are based on epitaxial ZnO layers grown on suitable substrates, preferably bulk ZnO. Unfortunately the thermochemical properties of ZnO make the growth of single crystals difficult: the triple point 1975 deg C., 1.06 bar and the high oxygen fugacity at the melting point p_O2 = 0.35 bar lead to the prevailing opinion that ZnO crystals for technical applications can only be grown either by a hydrothermal method or from "cold crucibles" of solid ZnO. Both methods are known to have significant drawbacks. Our thermodynamic calculations and crystal growth experiments show, that in contrast to widely accepted assumptions, ZnO can be molten in metallic crucibles, if an atmosphere with "self adjusting" p_O2 is used. This new result is believed to offer new perspectives for ZnO crystal growth by established standard techniques like the Bridgman method.