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A synthesis method for a high-capacity and high-nickel multi-metal oxide cathode material

A multi-metal, cathode material technology, applied in electrical components, battery electrodes, electrochemical generators, etc., can solve problems such as unfavorable industrial production, low synthesis temperature, high production costs, etc., and achieve abundant and cheap raw materials and controllable reactions. , cost-effective

Active Publication Date: 2013-04-24
LONG POWER SYST NANTONG CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Co-precipitation method can obtain precursors with smaller particle size and uniform mixing than high-temperature solid-phase method, and the synthesis temperature is low, and the product components after sintering are uniform; however, co-precipitation method involves more process steps, so it has relatively high production cost
However, the sol-gel method has a high production cost due to the use of organometallic reactant precursors, which is not conducive to industrial production.

Method used

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  • A synthesis method for a high-capacity and high-nickel multi-metal oxide cathode material
  • A synthesis method for a high-capacity and high-nickel multi-metal oxide cathode material
  • A synthesis method for a high-capacity and high-nickel multi-metal oxide cathode material

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Embodiment

[0047] The first step to synthesize LiNi 0.928 co 0.069 Mg 0.003 o 2 Material

[0048] Put 387 grams of lithium carbonate, 862.2 grams of nickelous hydroxide, 64.5 grams of cobaltous hydroxide and 1.7327 grams of magnesium hydroxide into a high-energy grinder equipped with 2.5 liters of water to disperse evenly and mix and grind for 3 hours before spraying at 110 ° C Dry to obtain a powdery precursor mixture. The powder mixture was sintered in a box furnace at 800 °C in an atmosphere with an oxygen purity ≥ 45% for 12 hours to obtain black LiNi 0.928 co 0.069 Mg 0.003 o 2 Material.

[0049] The second step LiNi 0.928 co 0.069 Mg 0.003 o 2 Material Surface Coating

[0050] After dissolving 12.78 grams of lithium hydroxide with 1 liter of water, put 1 kilogram of LiNi synthesized in the first step in the embodiment and crushed and classified under stirring conditions. 0.928 co 0.069 Mg 0.003 o 2 Material; Dissolve 88.58 grams of cobalt nitrate in another contain...

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Abstract

The present invention discloses a synthesis method for a high-capacity and high-nickel multi-metal oxide cathode material, and the method comprises the steps of: (1) in the presence of water, an aqueous solution or a solvent, grinding lithium, cobalt, nickel, and a metal M compound; (2) spray-drying the above mixture; (3) high-temperature sintering the mixture to obtain LiNi[x]Co[y]M[z]O[2]; and (4) introducing a coating on the LiNi[x]Co[y]M[z]O[2] surface to obtain the cathode material. The coated LiNi[x]Co[y]M[z]O[2] material shows excellent electrochemical performance, for instance, under 0.1C and 3C, the discharge capacity of the LiNi[0.928]Co[0.069]Mg[0.003]O[2] material coated by LiCoO[2] can respectively be more than 200 and 165mAh / g (2.75-4.3V vs Li / Li <+>). The synthesis method of the present invention has the characteristics of being simple in the implementation of method, low in costs of processes and raw materials, and easy to realize industrialization.

Description

technical field [0001] The invention relates to the field of secondary batteries, in particular to a method for synthesizing an active positive electrode material of a metal oxide lithium ion battery with high nickel content, and a corresponding electrode and battery. Background technique [0002] Various positive electrode materials have been investigated in the field of rechargeable batteries. LiCoO 2 Due to its high working voltage and long cycle life, it has become the most commonly used cathode material in commercial lithium-ion batteries. Although LiCoO 2 It is a widely used cathode material in portable rechargeable battery applications, but it has scarce cobalt resources, high toxicity, high price, low actual specific capacity (between 140 and 150mAh / g), and relatively low thermal stability Sexual characteristics make LiCoO 2 The application is limited to small electronic product applications, such as mobile phones and digital rechargeable batteries. LiNiO 2 The...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/48H01M10/0525
CPCY02E60/122Y02E60/10
Inventor 黄碧英孙喜梅
Owner LONG POWER SYST NANTONG CO LTD
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