Membranes, calendered microporous membranes, battery separators, and related methods

Assignee

• Celgard, LLC · US

Inventors

• Kristoffer K. Stokes · Lunenburg, US
• William John Mason · McConnells, US
• Kang Karen Xiao · Mississauga, CA
• Xiaomin Zhang · Charlotte, US
• Barry J. Summey · Five Points, US
• Robert Moran · Caldwell, US
• Jeffrey Gordon Poley · Town and Country, US
• Brian R. Stepp · Scottsdale, US
• Changqing Wang Adams · Fort Mill, US
• Daniel R. Alexander · Matthews, US
• Shante P. Williams · Charlotte, US
• Andrew Edward Voss · Rock Hill, US
• Douglas George Robertson · Oxnard, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02P70/50
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

Novel or improved microporous single or multilayer battery separator membranes, separators, batteries including such membranes or separators, methods of making such membranes, separators, and/or batteries, and/or methods of using such membranes, separators and/or batteries are provided. In accordance with at least certain embodiments, a multilayer dry process polyethylene/polypropylene/polyethylene microporous separator which is manufactured using the inventive process which includes machine direction stretching followed by transverse direction stretching and a subsequent calendering step as a means to reduce the thickness of the multilayer microporous membrane, to reduce the percent porosity of the multilayer microporous membrane in a controlled manner and/or to improve transverse direction tensile strength. In a very particular embodiment, the inventive process produces a thin multilayer microporous membrane that is easily coated with polymeric-ceramic coatings, has excellent mechanical strength properties due to its polypropylene layer or layers and a thermal shutdown function due to its polyethylene layer or layers. The ratio of the thickness of the polypropylene and polyethyle…