COMPOSITE GRAPHITE PARTICLE FOR NONAQUEOUS SECONDARY BATTERY, AND NEGATIVE ELECTRODE MATERIAL, NEGATIVE ELECTRODE, AND NONAQUEOUS SECONDARY BATTERY CONTAINING THE SAME

To provide a nonaqueous secondary battery exhibiting a sufficiently small charge/discharge irreversible capacity in the initial cycle, exhibiting an excellent charge acceptance and excellent cycle characteristics, even when the negative electrode material-containing active material layer on a curren...

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Hauptverfasser:	OKANISHI KENGO, YAMAGUCHI KEITA, YAMAMOTO NORIKAZU
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	BASIC ELECTRIC ELEMENTS CHEMISTRY COMPOUNDS THEREOF ELECTRICITY INORGANIC CHEMISTRY METALLURGY NON-METALLIC ELEMENTS PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
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creator	OKANISHI KENGO YAMAGUCHI KEITA YAMAMOTO NORIKAZU
description	To provide a nonaqueous secondary battery exhibiting a sufficiently small charge/discharge irreversible capacity in the initial cycle, exhibiting an excellent charge acceptance and excellent cycle characteristics, even when the negative electrode material-containing active material layer on a current collector is highly densified so as to obtain a high capacity. A composite graphite particle for nonaqueous secondary batteries, which is a composite graphite particle (B) obtained by forming a spherical graphite particle (A) and a graphitized product of graphitizable binder, wherein the spherical graphite particle (A) is a specific graphite particle or the composite graphite particle satisfies (a) and/or (b): (a) assuming that the cumulative 50% diameter (d50 size), 90% diameter (d90 size) and 10% diameter (d10 size) of the (A) by a laser diffraction method are D50(A), D90(A) and D10(A), respectively, and the cumulative 50% diameter (d50 size), 90% diameter (d90 size) and 10% diameter (d10 size) of the (B) by a laser diffraction method are D50(B), D90(B) and D10(B), respectively, the composite graphite particle satisfies all of (formula 1), (formula 2) and (formula 3): 1.1 ¤ D ¢ 50 B / D ¢ 50 A ¤ 2.0 1.1 ¤ D ¢ 90 B / D ¢ 90 A ¤ 2.4 1.0 ¤ D ¢ 10 B / D ¢ 10 A ¤ 1.8 (b) assuming that the value of 110 (A) /004 (A) which is the ratio between 110 plane and 004 plane measured from XRD of the (A) is x and the value of 110 (B) /004 (B) which is the ratio between 110 plane and 004 plane measured from XRD of the (B) is y, the ratio z therebetween is defined by the following formula and z is from 1.2 to 3.5: z = y / x
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A composite graphite particle for nonaqueous secondary batteries, which is a composite graphite particle (B) obtained by forming a spherical graphite particle (A) and a graphitized product of graphitizable binder, wherein the spherical graphite particle (A) is a specific graphite particle or the composite graphite particle satisfies (a) and/or (b): (a) assuming that the cumulative 50% diameter (d50 size), 90% diameter (d90 size) and 10% diameter (d10 size) of the (A) by a laser diffraction method are D50(A), D90(A) and D10(A), respectively, and the cumulative 50% diameter (d50 size), 90% diameter (d90 size) and 10% diameter (d10 size) of the (B) by a laser diffraction method are D50(B), D90(B) and D10(B), respectively, the composite graphite particle satisfies all of (formula 1), (formula 2) and (formula 3): 1.1 ¤ D ¢ 50 B / D ¢ 50 A ¤ 2.0 1.1 ¤ D ¢ 90 B / D ¢ 90 A ¤ 2.4 1.0 ¤ D ¢ 10 B / D ¢ 10 A ¤ 1.8 (b) assuming that the value of 110 (A) /004 (A) which is the ratio between 110 plane and 004 plane measured from XRD of the (A) is x and the value of 110 (B) /004 (B) which is the ratio between 110 plane and 004 plane measured from XRD of the (B) is y, the ratio z therebetween is defined by the following formula and z is from 1.2 to 3.5: z = y / x</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS CHEMISTRY COMPOUNDS THEREOF ELECTRICITY INORGANIC CHEMISTRY METALLURGY NON-METALLIC ELEMENTS PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
title	COMPOSITE GRAPHITE PARTICLE FOR NONAQUEOUS SECONDARY BATTERY, AND NEGATIVE ELECTRODE MATERIAL, NEGATIVE ELECTRODE, AND NONAQUEOUS SECONDARY BATTERY CONTAINING THE SAME
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