Henry T Taskier

US Patent:

42986664, Nov 3, 1981

Filed:

Feb 27, 1980

Appl. No.:

6/125195

Inventors:

Henry T. Taskier - Fanwood NJ

Assignee:

Celanese Corporation - New York NY

International Classification:

H01M 214

US Classification:

429206

Abstract:

The present invention provides a microporous membrane having deposited on at least one surface thereof a porous, uniform coating of a low hydrogen over-potential material. The coated microporous membrane is particularly suited for use as a battery separator in a rechargeable zinc electrode containing battery, which is resistant to penetration by zinc dendrites and is capable of increasing the uniformity of current density upon recharging of the battery. A battery employing said coated microporous membrane as a battery separator as well as a process for using said coated microporous membrane is also provided.

US Patent:

44381859, Mar 20, 1984

Filed:

Sep 3, 1982

Appl. No.:

6/414747

Inventors:

Henry T. Taskier - Fanwood NJ

Assignee:

Celanese Corporation - New York NY

International Classification:

H01M 216

US Classification:

429250

Abstract:

The present invention is directed to microporous membranes having a surfactant impregnated therein which is coated on at least one surface thereof with a polymer coating, such as cellulose acetate. The polymer coating possesses functional groups in the presence of an aqueous alkaline environment which permits it to undergo hydrogen bonding with water and to transport battery electrolyte through the coating by diffusion. The presence of the coating on the normally hydrophobic substrate membrane, when used in conjunction with a suitable surfactant, increases the wettability of the substrate membrane and thereby lowers its electrical resistance. The coating also serves to immobilize various soluble electrode derived ions at the coating-electrolyte interface thereby hindering their penetration into the pores of the substrate microporous membrane. Consequently, the plugging of the pores of the substrate membrane by these ions is substantially reduced thereby increasing the life of a battery in which said coated membranes are used as battery separators.

US Patent:

43595103, Nov 16, 1982

Filed:

Jul 31, 1980

Appl. No.:

6/174146

Inventors:

Henry T. Taskier - Fanwood NJ

Assignee:

Celanese Corporation - New York NY

International Classification:

H01M 214

US Classification:

429144

Abstract:

The present invention is directed to microporous membranes having a surfactant impregnated therein which is coated on at least one surface thereof with a polymer coating, such as cellulose acetate. The polymer coating possesses functional groups in the presence of an aqueous alkaline environment which permits it to undergo hydrogen bonding with water and to transport battery electrolyte through the coating by diffusion. The presence of the coating on the normally hydrophobic substrate membrane, when used in conjunction with a suitable surfactant, increases the wettability of the substrate membrane and thereby lowers its electrical resistance. The coating also serves to immobilize various soluble electrode derived ions at the coating-electrolyte interface thereby hindering their penetration into the pores of the substrate microporous membrane. Consequently, the plugging of the pores of the substrate membrane by these ions is substantially reduced thereby increasing the life of a battery in which said coated membranes are used as the battery separators.

US Patent:

49735322, Nov 27, 1990

Filed:

Apr 5, 1989

Appl. No.:

7/333662

Inventors:

Henry T. Taskier - Fanwood NJ
Steven M. Mullins - Charlotte NC
Ellen A. Langford - Charlotte NC
Robert J. Fleming - Rock Hill SC

Assignee:

Hoechst Celanese Corporation - Somerville NJ

International Classification:

H01M 650

US Classification:

429 62

Abstract:

A battery separator includes a porous substrate and a thermal fuse material adhered to at least one surface of said porous substrate. The thermal fuse material is adhered to the substrate surface in a predetermined geometric array thereupon so as to establish open areas of the at least one substrate surface to thereby allow ionic migration therethrough. The thermal fuse material forming the geometric array on the substrate surface may itself define open pores to further facilitate such ionic migration. The thermal fuse material melts at or near a predetermined threshold temperature so that the substrate's permeability irreversibly becomes significantly decreased and thus interrupts the chemical reaction in an electrochemical battery. In such a manner, batteries of improved safety may be provided using the separators of this invention.