SU1053191A1 - Solid electrolyte for chemical source of electric energy - Google Patents

Abstract

SOLID ELECTROLYTE FOR CHEMICAL SOURCE CURRENT, containing lithium orthogermanate and, second lithium salt, characterized in that, in order to increase the resistivity at low temperatures, lithium sulfate is used as the second lithium salt at the trace ratio of the components, mol. %: Orthohermanate lithium 80-95 Lithium sulfate 5-20

Description

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00 The invention relates to the electrical engineering industry and can be used in chemical current sources operating at elevated temperatures. A known solid electrolyte is a chemical current source, containing two salts, one of which is a lithium salt. This electrolyte contains lithium iodide and aluminum sulphate 1. However, in the range of operating temperatures, the electrical resistivity of such an electrolyte is high (about. Cm, with and Yu. Cm at 400 ° C), which significantly limits the possible uses of the electrolyte. Closest to the invention in technical essence and achievable results is a solid electrolyte for a chemical current source containing lithium orthogermanate and a second lithium salt. A lithium orthovanadate was added as a second salt. Electrolyte has a low specific resistance in the working temperature range (tour (0.65–10 Ω cm in the range of 300–700 ° C), which ensures high electrical characteristics of sources, currents during their operation 2. However, at a storage temperature and - a known electrolyte has an insufficiently high resistivity (35000-45000 ohm-cm, with which leads to a noticeable self-discharge of the current source. The purpose of the invention is to increase the resistivity at low temperatures. The goal is achieved in those in solid electrolyte for chemical a current source containing lithium orthogermanate and a second lithium salt, and lithium sulphate is taken as the second lithium salt in the following ratio of components, mol%: lithium orthohermanate 80-95 lithium sulphate 5-20 Perm 1. Mixture 90 mol. % And 10 mol.%. Il SO are kept in an alundum crucible at 10001050 C10 h. The changes in the electrical resistivity made from the burned mixture of ceramic samples are as follows (Ohm-cm): TOSS o, 7 °; -1 ° o; 500s - 1.65; 400C - 3.40; 25c - 110,000. Example 2 Under the conditions of Example 1, an electrolyte of composition 95 mol% Li40eD + 5 molar was obtained. Specific, electrolyte resistivity (Ohm-cm): 0, БО - 0.85, 500 ° С - 1.40, 400 ° С - 2.55; 25 ° C - 72000. Example 3. Under the conditions of Example 1, an electrolyte of composition 80 mol% Li ((GeOi (+ 20 mol%) Electrolyte specific resistivity (Ω-cm) -, - 0.75; -1, 15, - 1.705, 95; - 130000. When the lithium sulfate content is less than 5 or more than 20 mol.%, The electrical resistivity in the working temperature range (400-BOO C) sharply increases, which negatively affects the characteristics of current sources. corresponding to the working range, according to its characteristics is not inferior to the known, and at low temperatures it has 2-3 times the electrical resistivity. This provides a reduction in self-discharge rate of current source chemical .i increases its shelf life.

Claims (1)

A SOLID ELECTROLYTE FOR A CHEMICAL SOURCE OF THE CURRENT, containing lithium orthogermanate and a second lithium salt, which are isolated by the fact that, in order to increase the resistivity at low temperatures, lithium sulfate is taken as the second lithium salt with barely the ratio of components, mol. % ': OrthogermanateLithium 80-95 Lithium Sulphate 5-20 I