Hydridoaluminates of alkaline metals

The reactivity of the anhydrous carbonates of alkaline metals with sulphur dioxide has been studied experimentally in dependence both on the nature of the cation and on the way of preparation of the anhydrous carbonate. The carbonates were prepared either by thermal decomposition of hydrogen carbonates or by thermal dehydration of carbonate hydrates. The carbonates of lithium, sodium, potassium, rubidium and caesium have been investigated. Kinetic measurements were carried out in a flow reactor in the integral regime at 423 K under atmospheric pressure, with a gas containing 0.2 vol.% of sulphur dioxide and 2.0 vol.% of water vapour in the nitrogen as a carrier gas. The reactivities have been compared on the basis of time dependence of the conversion of carbonate to sulphite.

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Density changes of bismuth and alkaline metals at the transition to the liquid state

Thermophysics and Aeromechanics ◽

10.1134/s0869864316060135 ◽

2016 ◽

Vol 23 (6) ◽

pp. 913-918 ◽

Cited By ~ 1

Author(s):

S. V. Stankus ◽

R. N. Abdullaev ◽

R. A. Khairulin

Keyword(s):

Liquid State ◽

Alkaline Metals

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A Novel Technique for Growth of Lithium-free ZnO Single Crystals

MRS Proceedings ◽

10.1557/opl.2013.587 ◽

2013 ◽

Vol 1538 ◽

pp. 405-410

Author(s):

Shaoping Wang ◽

Aneta Kopec ◽

Andrew G. Timmerman

Keyword(s):

Single Crystal ◽

The Novel ◽

Uv Laser ◽

Uv Detectors ◽

Growth Technique ◽

Light Emitting ◽

Alkaline Metals ◽

Novel Technique ◽

Solar Blind ◽

Zno Single Crystal

ABSTRACTA ZnO single crystal is a native substrate for epitaxial growth of high-quality thin films of ZnO-based Group II-oxides (e.g. ZnO, ZnMgO, ZnCdO) for variety of devices, such as UV and visible-light emitting diodes (LEDs), UV laser diodes and solar-blind UV detectors. Currently, commercially available ZnO single crystal wafers are produced using a hydrothermal technique. The main drawback of hydrothermal growth technique is that the ZnO crystals contain large amounts of alkaline metals, such as Li and K. These alkaline metals are electrically active and hence can be detrimental to device performances. In this paper, results from a recently developed novel growth technique for ZnO single crystal boules are presented. Lithium-free ZnO single crystal boules of up to 1 inch in diameter was demonstrated using the novel technique. Results from crystal growth and materials characterization will be discussed.

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