Method of producing amorphous carbon material for the negative electrode of lithium ion secondary battery, and lithium ion secondary battery
a lithium ion secondary battery and amorphous carbon technology, applied in the direction of cell components, transportation and packaging, coke ovens, etc., can solve the problems of reducing the capacity available within a predetermined voltage range, the principle is not able to make the charge and discharge efficiency identical, and the capacity is not recovered. achieve the effect of high degree of service life characteristics
Inactive Publication Date: 2014-06-12
TODA IND +1
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Benefits of technology
The present invention relates to a new carbon material for negative electrodes in lithium ion secondary batteries which can improve the reliability and performance of the battery. The carbon material has a reduced number of crystallite edges which are exposed at the particle surface, which results in improved charge and discharge efficiency and reduced capacity degradation of the battery. The technical effect is the provision of a high-quality carbon material for negative electrodes in lithium ion secondary batteries which can provide reliable and efficient performance.
Problems solved by technology
One of the reasons is that, due to low charge and discharge efficiency at the negative electrode, it is impossible in principle to make the charge and discharge efficiency identical between the positive electrode reaction (Formula 1) and the negative electrode reaction (Formula 2).
As stated above, during the repeated charge and discharge cycles, these kinds of batteries produce a problem of a reduction in capacity obtainable within a predetermined voltage range (within the range between the discharge termination voltage and the charge termination voltage) due to a change of an operation range of the capacity of the positive and negative electrodes.
There is no means to recover the capacity, which makes this problem more serious.
In this way, during float-charge as well, an operation range of the capacity of the positive electrode and the negative electrode changes irreversibly, leading to degradation in battery capacity.
On the surface of a negative electrode carbon material during charge, that is, at the interface where an electrolyte solution comes into contact with the carbon material, a side reaction or a competitive reaction occurs because the localized electrons catalytically act to cause reduction decomposition of the electrolyte solution in addition to the intended charging reaction causing insertion of lithium in layers of reticulated planes, thus decreasing charge and discharge efficiency of the negative electrode.
That is, crystallites in an isotropic state exposed to the surface increases reduction decomposition of the electrolyte solution, thus causing capacity degradation.
Method used
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[0101]The invention according to the present application will now be described in detail based on examples and comparative examples, with the understanding that these examples are in no way limitative on the invention.
1. Raw Coke Compositions and a Method for Producing Therefor
[0102](1) Raw Coke Composition a
[0103]Atmospheric distillation residuum having the sulfur content of 3.1 mass % was hydrodesulfurized under the presence of a catalyst so that the hydrocracking ratio was 25% or less, thus obtaining hydrodesulfurization oil. Hydrodesulfurization conditions were the total pressure of 180 MPa, the hydrogen partial pressure of 160 MPa and the temperature of 380° C. Desulfurized vacuum light oil (having the content of sulfur of 500 mass-ppm and the density of 0.88 g / cm3 at 15° C.) was fluid catalytic cracked, thus obtaining fluid catalytic cracking residue oil. This fluid catalytic cracking residue oil was selective-extracted with dimethylformamide so as to be separated into an arom...
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Abstract
An amorphous carbon material for lithium-ion secondary battery negative electrode is capable of reducing capacity degradation due to repeated charge and discharge cycles, storage while being charged, or floating charge.A method for producing an amorphous carbon material for a negative electrode of a lithium-ion secondary battery includes the steps of: pulverizing and classifying a raw coke composition obtained from a heavy-oil composition undergone coking by delayed coking process to obtain powder of the raw coke composition, the raw coke composition having a H / C atomic ratio that is a ratio of hydrogen atoms H and carbon atoms C of 0.30 to 0.50 and having a micro-strength of 7 to 17 mass %; giving compressive stress and shear stress to the powder of the raw coke composition to obtain a carbonized composition precursor; and heating the carbonized composition precursor under an inert atmosphere at a temperature from 900° C. to 1,500° C. so that a size of a crystallite Lc(002) is in a range of 2 nm to 8 nm, the size being calculated from a (002) diffraction line obtained by X-ray wide-angle diffractometry.
Description
[0001]This application is a continuation application of PCT / JP2011 / 075204, filed on Nov. 1, 2011.BACKGROUND OF THE INVENTION[0002]1. Field of the Invention[0003]The present invention relates to a method of producing amorphous carbon materials used for a negative electrode of a lithium ion secondary battery. More specifically, the present invention relates to amorphous carbon materials used for a negative electrode of a lithium ion secondary battery with suppressed capacity degradation and high durability and a lithium ion secondary battery including a negative electrode made of such an amorphous carbon material.[0004]2. Description of Related Art[0005]Lithium ion secondary batteries are light in weighted and have high input and output characteristics compared with conventional secondary batteries such as a nickel-cadmium battery, a nickel-metal hydride battery and a lead battery, and such lithium ion secondary batteries have been anticipated in recent years as power supplies for ele...
Claims
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IPC IPC(8): H01M4/133
CPCH01M4/133H01M4/587H01M10/052C10B55/00C10B57/045C01B32/05Y02E60/50Y02E60/10H01M2004/8684Y02T10/70H01M4/583
Inventor SUZUKIISHIMARU, NORIYOOYAMA, TAKASHITANO, TAMOTSUODA, TOSHIYUKIIPPEIURAI, TOMOAKIOKAZAKI, SEIJIKURATA, KATSUAKIHIRAMOTO, TOSHIAKISATO, AKINOODA, WATARU
Owner TODA IND