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Transition metal-metaphosphate anode active material, manufacturing method therefor, and lithium secondary battery or hybrid capacitor comprising same

A negative electrode active material, lithium secondary battery technology, applied in the direction of active material electrodes, hybrid capacitor electrodes, hybrid/electric double layer capacitor manufacturing, etc., to achieve the effect of improving capacity characteristics, low average voltage, and increasing voltage

Active Publication Date: 2015-05-20
LG ENERGY SOLUTION LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] The first technical problem to be solved by the present invention is to provide a transition metal-metaphosphate negative electrode active material in order to solve the problem of the above-mentioned lithium manganese phosphate, and the above-mentioned transition metal-metaphosphate negative electrode active material does not use lithium whose price continues to rise, Containing only transition metals and phosphoric acid, it is stable and has good conversion reactivity, so that it can exhibit excellent capacity characteristics

Method used

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  • Transition metal-metaphosphate anode active material, manufacturing method therefor, and lithium secondary battery or hybrid capacitor comprising same
  • Transition metal-metaphosphate anode active material, manufacturing method therefor, and lithium secondary battery or hybrid capacitor comprising same
  • Transition metal-metaphosphate anode active material, manufacturing method therefor, and lithium secondary battery or hybrid capacitor comprising same

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preparation example Construction

[0060] The present invention provides the preparation method of transition metal-metaphosphate of above chemical formula 1, comprising: step (i), obtain the precursor that comprises transition metal compound and phosphate; The obtained precursor is subjected to heat treatment.

[0061] Specifically, the method for preparing a transition metal-metaphosphate according to an embodiment of the present invention may include a step of obtaining a precursor comprising a transition metal compound and a phosphate (step (i)).

[0062] The above-mentioned transition metal-containing compound and phosphate can be obtained as a precursor by mixing according to the stoichiometric equivalent. At this time, in order to mix the above-mentioned compounds to the maximum extent, it is preferable to obtain a homogeneously mixed precursor by a normal grinding method such as a planetary ball mill.

[0063] According to an embodiment of the present invention, in order to prepare the above-mentioned ...

Embodiment 1

[0106] Embodiment 1: Mn(PO 3 ) 2 preparation of

[0107] Mn(PO 3 ) 2 The synthesis of is carried out according to a common solid-phase reaction method in which precursors are mixed in a manner corresponding to the chemical equivalent and heat-treated.

[0108] MnO 2 and NH 4 h 2 PO 4 After quantifying at an equivalent of 1:2, a planetary ball mill was used to mix the above-mentioned substances as well as possible. After adding alumina balls and ethanol as a dispersion medium, grinding was performed at a speed of 350 rpm for one hour to obtain a precursor in which the raw materials were uniformly mixed.

[0109] Mn(PO 3 ) 2 .

Embodiment 2

[0110] Embodiment 2: preparation is coated with the Mn(PO of carbon layer 3 ) 2

[0111] The Mn(PO) prepared in the above-mentioned embodiment 1 3 ) 2 After being dispersed in sucrose solution and heated by microwave, the Mn(PO 3 ) 2 A carbon coating is formed on it.

[0112] Specifically, with Mn(PO 3 ) 2 Gross weight is a basis, after preparing the sucrose solution of about 60 weight percent, make above-mentioned Mn(PO 3 ) 2 Disperse in the prepared sucrose solution and stir for more than 30 minutes. Then, hydrolysis by means of microwave heat treatment was carried out at a temperature of 200°C. The above heat treatment was performed in argon as an inert atmosphere. Mn coated with a carbon layer by the above hydrolysis using water and ethanol 2 P 2 o 7 After several washes, carbon-coated Mn(PO 3 ) 2 .

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Abstract

Provided is an anode active material including a transition metal-metaphosphate of Chemical Formula 1: €ƒ€ƒ€ƒ€ƒ€ƒ€ƒ€ƒ€ƒ<Chemical Formula 1>€ƒ€ƒ€ƒ€ƒ€ƒM(PO 3 ) 2 where M is any one selected from the group consisting of titanium (Ti), chromium (Cr), manganese (Mn), iron (Fe), cobalt (Co), nickel (Ni), ruthenium (Ru), palladium (Pd), and silver (Ag), or two or more elements thereof. Since the anode active material of the present invention is stable and has excellent conversion reactivity while including only transition metal and phosphate without using lithium in which the price thereof is continuously increased, the anode active material of the present invention may improve capacity characteristics.

Description

technical field [0001] The invention relates to a transition metal-metaphosphate negative electrode active material, a preparation method thereof, and a lithium secondary battery or a hybrid capacitor containing it. Background technique [0002] Carbon-based materials are widely used as negative electrode active materials of conventional secondary batteries. However, due to the growth of the secondary battery market and the demand for power sources for various purposes, the development of new materials is being widely carried out. [0003] In existing hybrid electric vehicles (HEV), amorphous carbon is mainly used because high power is required more than high energy, but currently, with the development of plug-in hybrid electric vehicles (Plug-in Hybrid Electric Vehicles) Vehicle) or Battery Electric Vehicle (Battery Electric Vehicle), the demand for materials with high energy density along with high power characteristics is increasing rapidly. [0004] In this case, the o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/58H01M4/136H01M10/052H01G11/22
CPCH01G11/22H01M4/139H01M4/1397H01M4/362H01M4/5825C01B25/44C01B25/45H01G11/30H01G11/86H01M4/366H01M4/625H01M10/052Y02E60/10Y02E60/13H01M4/136H01M4/58H01M2004/027
Inventor 禹相昱柳志宪金银卿金帝映安相助洪愍煐
Owner LG ENERGY SOLUTION LTD