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Electric field induced crystallization K<6.15>Zn<0.05>B<0.2>Al<0.1>P<0.05>Zr<0.05>Si<1.6>O<7> potassium fast ion conductor and preparation method thereof

An ionic conductor, electric field-induced technology, used in circuits, electrical components, secondary batteries, etc., to achieve the effect of accelerating crystallization, increasing migration pathways, and reducing grain boundary voids

Inactive Publication Date: 2019-10-25
NINGBO UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the potassium ion conductors that are essential for the construction of potassium ion all-solid-state batteries are still basically blank.

Method used

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  • Electric field induced crystallization K&lt;6.15&gt;Zn&lt;0.05&gt;B&lt;0.2&gt;Al&lt;0.1&gt;P&lt;0.05&gt;Zr&lt;0.05&gt;Si&lt;1.6&gt;O&lt;7&gt; potassium fast ion conductor and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0011] Embodiment 1: the solid KNO 3 : Al(NO 3 ) 3 9H 2 O: NH 4 h 2 PO 4 : Boric acid: Zn(NO 3 ) 2 ·6H 2 O according to K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 The ratio of the stoichiometric molar ratio of the corresponding elements in the mixture is uniformly mixed, while vigorously stirring, add deionized water until all solid substances are dissolved, record the mass of the added deionized water, and then continue to add the recorded deionized water Deionized water with a mass of 1.1 times the mass and stirred evenly, then continue to stir and add tartaric acid whose amount is 1.6 times the total amount of all metal ions and stir well until completely dissolved; record this solution as solution A; it will meet K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 Tetraethyl orthosilicate and tetrabutyl zirconate of the stoichiometric ratio are dissolved in absolute ethanol whose volume is 1.0 times the volume of tetraethyl orthosilicate...

Embodiment 2

[0012] Embodiment 2: the solid KNO 3 : Al(NO 3 ) 3 9H 2 O: NH 4 h 2 PO 4 : Boric acid: Zn(NO 3 ) 2 ·6H 2 O according to K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 The ratio of the stoichiometric molar ratio of the corresponding elements in the mixture is uniformly mixed, while vigorously stirring, add deionized water until all solid substances are dissolved, record the mass of the added deionized water, and then continue to add the recorded deionized water Deionized water with a mass of 1.5 times the mass and stirred evenly, then continue to stir and add tartaric acid whose amount is 2.4 times the total amount of all metal ions and stir well until completely dissolved; record this solution as solution A; it will meet K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 Tetraethyl orthosilicate and tetrabutyl zirconate of the stoichiometric ratio are dissolved in absolute ethanol whose volume is 1.5 times the volume of tetraethyl orthosilicate...

Embodiment 3

[0013] Embodiment 3: the solid KNO 3 : Al(NO 3 ) 3 9H 2 O: NH 4 h 2 PO 4 : Boric acid: Zn(NO 3 ) 2 ·6H 2 O according to K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 The ratio of the stoichiometric molar ratio of the corresponding elements in the mixture is uniformly mixed, while vigorously stirring, add deionized water until all solid substances are dissolved, record the mass of the added deionized water, and then continue to add the recorded deionized water Deionized water with a mass of 1.3 times the mass and stirred evenly, then continue to stir and add tartaric acid whose amount is 2.1 times the total amount of all metal ions and stir well until completely dissolved; record this solution as solution A; it will meet K 6.15 Zn 0.05 B 0.2 al 0.1 P 0.05 Zr 0.05 Si 1.6 o 7 Tetraethyl orthosilicate and tetrabutyl zirconate of the stoichiometric ratio are dissolved in absolute ethanol whose volume is 1.2 times the sum of the volumes of tetraethyl o...

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Abstract

The invention discloses an electric field induced crystallization K<6.15>Zn<0.05>B<0.2>Al<0.1>P<0.05>Zr<0.05>Si<1.6>O<7> potassium fast ion conductor and a preparation method thereof. Al<3+> and B<3+>are used for partially substituting Si<4+> ions, high-concentration interstitial potassium ions are generated in a crystal, and the reduction of the migration activation energy of potassium ions is facilitated; the electron conductivity of the fast ion conductor is further reduced by doping P<5+>; the size of migration channels of the potassium ions is adjusted by doping B<3+> with a small ionicradius to adapt to the rapid migration of the potassium ions; Zr<4+> is partially doped to form a distorted lattice structure to increase lattice imperfection to facilitate potassium ion conduction; cation vacancies are generated by doping Zn<2+> to increase migratory routes of the potassium ions; and the surface of K6Si2O7 particles is modified during the preparation to form an easy-sintering property. Meanwhile, the introduction of a strong direct current electric field induces crystallization to accelerate the crystallization rate, lower the crystallization temperature and increase the crystal integrity. The synergistic effects enable normal temperature potassium ion conductivity of the potassium fast ion conductor to exceed 5*10<-4> S / cm and to be closer to the potassium ion conductivity of a liquid electrolyte.

Description

technical field [0001] The invention relates to the field of manufacturing a solid potassium fast ion conductor. Background technique [0002] Lithium-ion batteries have absolute advantages such as high volume, high weight-to-energy ratio, high voltage, low self-discharge rate, no memory effect, long cycle life, and high power density. They have an annual share of more than 30 billion US dollars in the global mobile power market and far exceed other The market share of batteries is the most promising chemical power source [Wu Yuping, Wan Chunrong, Jiang Changyin, Lithium-ion Secondary Batteries, Beijing: Chemical Industry Press, 2002.]. At present, most of the lithium-ion secondary batteries at home and abroad use liquid electrolytes. Liquid lithium-ion batteries have some disadvantages, such as: liquid organic electrolytes may leak, and may explode at too high a temperature, causing safety accidents, and cannot be used in some applications. Occasions with high safety requi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/16H01M10/0562H01M10/054
CPCC04B35/16C04B2235/3409C04B2235/443C04B2235/447C04B2235/48C04B2235/483C04B2235/6562C04B2235/96H01M10/054H01M10/0562H01M2300/0068Y02E60/10
Inventor 水淼
Owner NINGBO UNIV
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