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Process for preparing lithium niobate wafer by fused mass diffusion method

A technology of lithium niobate and diffusion method, which is applied in the concentration process and near chemical ratio lithium niobate wafer field, can solve the problems of high temperature conditions, long diffusion time, strict control of lithium content, etc., and achieve simple operation and preparation The effect of short time and high yield

Inactive Publication Date: 2005-03-16
NANKAI UNIV
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  • Abstract
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  • Claims
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Problems solved by technology

The first two methods are methods of directly growing near-chemical lithium niobate crystals, and it is difficult to strictly control the lithium content during the growth process. The third method obtains a high lithium concentration by processing the finished lithium niobate wafer with the same composition. the crystal
However, VTE requires high temperature conditions, long diffusion time, and requires good sealing of the container to ensure a high lithium concentration in the steam.

Method used

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Examples

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Embodiment

[0017] Weigh 100g Li 2 SO 4 powder, 25 g K 2 SO 4 The powder is put into the crucible together with the lithium niobate wafer of the same composition. Heating to 1100° C. and keeping the temperature constant for 30 hours can obtain a lithium niobate wafer with a near-chemical ratio with a lithium ion concentration of 49.9 mol%. The VTE method to obtain the same niobium-lithium ratio takes more than 120 hours.

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Abstract

The invention relates to a process for increasing the concentration of lithium ions in lithium niobate which comprises, placing the lithium niobate wafers with the same constituents into crucible, covering the wafers with right amount of lithium ion crystal powder and potassium ion crystal powder so as to melt down the crystal powder, then keeping constant temperature of 1000-1200 deg. C for 1-200 hours, cooling down to room temperature, and removing the ionic crystal residues adhering to the wafers by means of liquid cleaning and polishing.

Description

technical field [0001] The invention relates to a lithium niobate wafer with the same composition as the diffusion treatment of lithium ions, in particular to a process for increasing the concentration of lithium ions in lithium niobate, so that the wafer becomes a near-chemical ratio lithium niobate wafer with high lithium concentration, Belongs to the technical field of photoelectric functional materials Background technique [0002] There are mainly three existing methods for increasing the lithium concentration in lithium niobate: double crucible technology, flux method and vapor phase transport equilibrium method (VTE). The first two methods are methods of directly growing near-chemical lithium niobate crystals, and it is difficult to strictly control the lithium content during the growth process. The third method obtains a high lithium concentration by processing the finished lithium niobate wafer with the same composition. crystals. However, VTE requires high temper...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C21/00
Inventor 孙骞崔国新李玉栋陆文强许京军孔勇发黄子恒
Owner NANKAI UNIV
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