Electrode for use in a non-aqueous battery

Chemistry: electrical current producing apparatus – product – and – Current producing cell – elements – subcombinations and... – Electrode

Reexamination Certificate

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C429S217000, C429S218100

Reexamination Certificate

active

06558840

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to an element, in particular an electrode, for use in a non-aqueous battery, which element comprises at least a microporous sheet consisting of inorganic, optionally electroconductive, particles, a polymer with a high molecular weight and a hydrocarbon-containing compound. The present invention further relates to a method of manufacturing such an element, as well as to the application of such an element as a cathode, an anode and a separator, respectively. The present invention additionally relates to a battery which is successively composed of one or more layers of a current collector, an anode, a separator, a cathode and a current collector.
The element as mentioned in the opening paragraph is known per se from U.S. Pat. No. 5,143,805. The element disclosed therein, in particular a cathode-electrode, comprises a microporous sheet, which is a self-supporting foil composed of an essentially homogeneous composition of approximately 70-98 wt. % electrochemically active and electroconductive particulate material, approximately 2-30 wt. % polyethene having a weight-averaged molecular weight of 150,000 to approximately 5 million, and 0 to approximately 5 wt. % of an organic softening agent for the polyethene, and a current collector which is composed of a conductive material, said collector being in close contact with at least one side of the microporous sheet.
A drawback of such an electrode is the small quantity of inorganic particles in the polymer. The small quantity of inorganic particles reduces the activity of the electrode ultimately obtained. But increasing the quantity of inorganic particles leads, in practice, to a reduction of the integrity of the microporous sheet, and causes the microporous sheet to be susceptible to crack formation and disintegration.
SUMMARY OF THE INVENTION
For this reason, it is an object of the invention to provide an element, in particular an electrode, wherein a substantially larger quantity of inorganic particles can be processed.
Another object of the invention is to provide an element, in particular an electrode, which in spite of the high content of inorganic particles is not susceptible to crack-formation and disintegration.
In accordance with the invention, when the microporous sheet is used for an anode and a separator, the microporous sheet comprises 80-99.9 wt. % inorganic, optionally electroconductive, particles, 0.1-20.0 wt. % polyolefin compound with a high molecular weight, and 0-20.0 wt. % polymer, which polymer swells upon contacting electrolyte. When the microporous sheet is used for a cathode containing a quantity of polyolefin compound with a molecular weight of 0.1-1.9 wt. %, then the microporous sheet comprises 80-99.9 wt. % inorganic, optionally electroconductive, particles and 0-20 wt. % polymer, which polymer swells upon contacting electrolyte. When the microporous sheet is used for a cathode containing a quantity of polyolefin compound with a high molecular weight of 1.9-20 wt. %, then the microporous sheet comprises 80-98 wt. % inorganic, optionally electroconductive, particles and 0.1-20 wt. % polymer, which polymer swells upon contacting electrolyte.
The term cathode as used herein refers to a positive electrode, and the term anode refers to a negative electrode.
For the polyolefin compound having a high molecular weight, use is preferably made of Ultra High Molecular Weight Polyethene (UHMWP) or Ultra High Molecular Weight Polypropene (UHMWPP) having a weight-averaged molecular weight in the range from 1-10 million.
This polyolefin compound, which is used in the present invention, may additionally be composed of a mixture of polyethene having a high molecular weight and polyethene having a low molecular weight. It is alternatively possible, however, to use a mixture of polyethene with a high molecular weight and polypropene with a high molecular weight. Such a mixture exhibits a high resistance to high temperatures and a low shrinkage.
To obtain a flexible, electroconductive electrode having a high temperature stability, it is desirable for the polyolefin compound to be cross-linked. Cross-linking can be brought about by using ionizing radiation, electron radiation or K-radiation.
The quantity of polymer, which polymer exhibits swelling after contact with electrolyte, preferably ranges from 0.1 to 5 wt. % and is preferably chosen from the group formed by polystyrene, polyethene oxide, polypropene oxide,
The element in accordance with the invention can suitably be used as a cathode. When the element is used as a cathode, use is preferably made of inorganic particles, such as particles selected from the group consisting of 3d-transition metal oxides, such as LiMn
2
O
4
, LiCoO
2
, LiNiO
2
, to which, optionally, electroconductive particles, such as carbon and/or metal, are added.
The relevant element can also suitably be used as an anode. If the relevant element is used as an anode, preferably, carbon and/or graphite are used for the inorganic, electroconductive particles.
The relevant element can also suitably be used as a separator. If the relevant element is used as a separator, use is preferably made of inorganic, non-electrical particles, which particles are preferably selected from ceramic materials and/or oxides. For the ceramic material use is preferably made of Li
(1+x)
Al
x
Ti
(2−x)
(PO
4
)
3
and/or Li
3x
La
(2/3−x)
TiO
3
. For the oxides, use can suitably be made of Al
2
O
3
and/or SiO
2
.
The present invention further relates to a battery composed of one or more layers of a current collector, an anode, a separator, a cathode and a current collector, wherein at least one of the components: cathode, anode and separator, is the above-described cathode, anode and separator.
The present invention further relates to a method of manufacturing an element as described hereinabove, wherein the starting materials, namely inorganic, optionally electroconductive, particles, polyolefin compound and polymer are mixed with a solvent, whereupon the resultant mixture is supplied to an extruder so as to form a foil, after which the solvent is removed from the foil to obtain a microporous sheet.
In accordance with the method of the invention, an anode, a cathode and a separator can be manufactured in this manner. If a separator is manufactured, ceramic particles are used, as described hereinabove.
The element thus obtained can subsequently be used to manufacture lithium-ion batteries. The manufacturing process may be carried out in a number of different ways. The anode and the cathode can be laminated with current collectors by heating under pressure. This may be carried out in the dry state or in the presence of a solvent, which is subsequently removed from the system. In this way, composite sheets of, successively, a current collector/an anode/a separator/a cathode/a current collector are manufactured.
It is alternatively possible to jointly subject the anode and the cathode as well as the separator to a co-extrusion treatment. The resultant, composite element can be subsequently provided with current collectors and arranged to manufacture a battery.
It is also possible to subject either the anode or the cathode with the separator to a co-extrusion treatment. The resultant composite sheet material can be subsequently provided with current collectors and arranged to manufacture a battery.
In accordance with yet another method, both the anode and the cathode are provided, during the manufacture thereof, with a current collector. These self-supporting sheet materials may be subsequently combined with a conventional separator to manufacture a battery.


REFERENCES:
patent: 3351495 (1967-11-01), Larsen et al.
patent: 3864715 (1975-02-01), Mastrangelo
patent: 4320185 (1982-03-01), Bernstein et al.
patent: 4396693 (1983-08-01), Bernstein et al.
patent: 4880571 (1989-11-01), Comminellis et al.
patent: 5143805 (1992-09-01), Anderman et al.
patent: 5470357 (1995-11-01), Schmutz et al.
patent: 5789108 (1998-08-01), Chu
patent: 6287723 (2001-09-01), Maeda et al.
paten

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