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Process for preparing nano nickel oxide electrode for super capacitor

A nano-nickel oxide and supercapacitor technology, applied in battery electrodes, nickel oxide/nickel hydroxide, circuits, etc., can solve the problems of increasing the difficulty of nickel oxide process, increasing the production cost of nickel oxide, and affecting the effective use of electrodes, etc., to achieve The effect of abundant pores, easy access, and long service life

Inactive Publication Date: 2007-04-11
SHANGHAI UNIV
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Problems solved by technology

[0003] Chinese patent CN02156897.9 relates to a method for preparing nano-nickel oxide. The raw materials of this method are easy to obtain, but the method uses alumina as a template, which greatly increases the process difficulty of preparing nickel oxide, and the method has a large viscosity distribution and is easy to obtain. Forms clusters, which is not conducive to contact with the electrolyte
In U.S. Patent No. 7,066,976, it is reported that the electrocatalytic method is used to prepare nano-nickel oxide, and its particle size is 20 to 40 nanometers. However, the preparation of nickel oxide by this method produces a large amount of waste liquid that cannot be treated, and harmful substances are easily produced. High, thus increasing the production cost of nickel oxide
Chinese patents CN200310107714.4 and CN200420092280.5 report that electrodes are prepared by coating. This electrode has burrs and the surface is not smooth, which seriously affects the effective use of the electrode, and the electrode is prone to swelling during use, and even The phenomenon of shedding seriously affects the service life of the electrode

Method used

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Embodiment 1

[0012] The technological process and steps of the present embodiment are as follows:

[0013] Weigh 20 grams of nickel sulfate hexahydrate, dissolve 12 grams of polyethylene glycol in deionized water, and prepare 1000 ml of aqueous solution A, stir magnetically at a temperature of 50 ° C for 2 hours, and then add the same volume as solution A, namely 1000 ml of solution B; Solution B is the mixed solution of 2 mol / liter sodium hydroxide solution and 0.5 mol / liter ammonium carbonate; The rate of addition of solution B is 200 milliliters / hour, until precipitation produces completely, then the precipitation that produces is carried out suction filtration, and Wash until neutral, then dry in an oven at 100°C, and finally calcinate the product at 400°C for 5 hours to obtain nano-nickel oxide.

[0014] The prepared nano-nickel oxide is combined with an organic binder according to a certain weight percentage, that is, the content of the nano-nickel oxide is 85%, and the content of th...

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Abstract

The present invention relates to electrode material preparing technology, and is especially process of preparing nanometer nickel oxide electrode for super capacitor. The technological process includes the following steps: 1. compounding water solution A of nickel salt containing polyglycol as the protecting agent and water solution B of sodium hydroxide containing ammonia; 2. adding the solution B into the solution A at 50 deg.C through magnetic stirring for 2 hr to produce precipitant, suction filtering, washing and stoving the precipitant, and calcining at 400-500 deg.C for 4-5 hr to obtain nanometer nickel hydroxide; and 3. mixing the nanometer nickel hydroxide with organic adhesive in the weight ratio of 4-9, mixing in a ball mill, hot pressing at 150 deg.C and 300 MPa for 10-20 min, and final carbonizing at 850 deg.C to obtain nanometer nickel oxide electrode.

Description

technical field [0001] The invention relates to a preparation method of a nano-nickel oxide electrode used for a supercapacitor, and belongs to the technical field of chemical electrode material manufacturing technology. Background technique [0002] Supercapacitors are unique capacitors that are 20 to 2000 times larger than conventional capacitors. It has excellent pulse discharge performance and large-capacity energy storage performance that traditional capacitors do not have, and its application in high-energy pulse lasers has attracted widespread attention. At the same time, because of its unique advantages such as large energy storage, high power, light weight, and long cycle life, it is used as a backup power source, such as temporary lighting, heating, electric water pumping, and backup power for computers. Recently, during the practical application of electric vehicles, it was discovered that the vehicle urgently needs to supply high-current pulse electric energy wh...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01G53/04H01M4/52
CPCY02E60/12Y02E60/10
Inventor 施利毅代凯张志浩
Owner SHANGHAI UNIV
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