TH1901003117A - Zinc ion battery formula which uses a deep electrolyte solution containing choline chloride and urea. and the electrolyte preparation process - Google Patents

Abstract

Zinc ion battery formula which uses a deep electrolyte solution containing choline chloride and urea. which consists of a. Zinc, which acts as the negative terminal of the battery. b. manganese oxide which acts as the positive terminal of the battery c. electrolyte In addition, this invention is related to the process of preparing electrolytes. This consists of the following steps: a. Mix choline chloride and urea, then stir slowly. until fully dissolved. b. Dissolve the anhydrous zinc salts in the mixture prepared in paragraph a. c. heat the mixture in clause b. ------------ Page 1 of Number of pages: 1 page summary of the invention. A zinc ion battery formula using a deep electrolyte solution containing Choline Chloride and Urea which consists of a. zinc, which acts as the negative electrode of the battery; b. manganese oxide, which acts as the positive electrode of the battery; c. electrolyte. In addition, this invention is related to Method for preparing electrolytes This consists of the following steps: a. Mix choline chloride and urea, then slowly stir until dissolved. b. Dissolve the anhydrous zinc salt in the mixture prepared in point a. . c. heat the mixture in item b.

Claims (5)

1. Zinc ion battery formula which uses a deep eutectic solution electrolyte containing choline chloride and urea. which consists of: A. A cathode which has zinc as the main component. in the proportion of 50 - 100 percent by weight B. Anode which has manganese oxide as the main component. In the proportion of 30 - 80 percent by weight C. Electrolyte 2. A zinc ion battery formulation using a deep eutectic solution electrolyte containing choline chloride and urea according to claim 1, wherein the electrolyte comprising Proportion by mole A. Choline chloride 1 B. Urea 2 C. Zinc chloride 0.001-0.1 3. Zinc ion battery formula using a deep eutectic solution electrolyte containing The composition of choline chloride and urea according to claim 1 or 2, wherein the electrolyte May add as well. Surfactants Freezing point lowering agent or viscosity reducing agent Either one or a combination of less than 0.05 mole fraction4. Method for preparing electrolytes It consists of the following steps: a. Mix choline chloride and urea with a molar ratio of 1:2, then stir slowly. until well dissolved together. B. Dissolve the anhydrous zinc salt, namely zinc chloride, in the range of 0.001 - 0.1 mol per 1 mol of choline chloride into the mixture prepared in Section A.K. Heat the mixture in Section 2 in the temperature range of 60-120 degrees Celsius for more than 15 minutes until the water content in the mixture is less than 100 parts per million.5. The method for preparing the electrolyte according to claim 4, wherein step B may be further enhanced by dissolving the surfactant. Freezing point lowering agent or viscosity reducing agent Either one or a combination of less than 0.05 mole ratio ------------ Page 1 of 1 page Claims 1. Zinc ion battery formula using a good electrolyte solution. Peutectic consisting of choline chloride and urea, comprising: A. A cathode of which zinc is the main component. In the proportion of 50 - 100 percent by weight B. Anode of which manganese oxide is the main component. In the proportion of 30 - 80 percent by weight C. electrolyte 2. A zinc ion battery formula using a deep eutectic solution electrolyte containing choline chloride and urea according to claim 1, wherein the electrolyte comprising Proportion by mole A. Choline chloride 1 B. Urea 2 C. Zinc chloride 0.001 - 0.1 3. A zinc ion battery formula using a deep eutectic solution electrolyte containing choline chloride and urea according to claim 1 or 2, wherein the electrolyte May add as well. Surfactants Freezing point lowering agent or viscosity reducing agent Either one or in combination is less than 0.05 mole ratio. 4.Methods for preparing electrolytes which consists of the following steps: a. Mix choline chloride and urea with a molar ratio of 1:2, then stir slowly until completely dissolved. b. Dissolve the free zinc salt. Water, namely zinc chloride in the proportion range of 0.001 - 0.1 mol per 1 mol of choline chloride, is added to the mixture prepared in Section A. Heat the mixture in Section 2. in the temperature range of 60-120 degrees Celsius for a period of more than 15 minutes until the water content in the mixture is less than 100 parts per million. 5. Methods for preparing electrolytes According to claim 4, wherein step B may be supplemented by dissolving a surfactant, freezing point reducing agent. or viscosity reducing agent Either one or in combination is less than 0.05 in mole ratio.