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

We claim: 1. A battery separator for a lithium battery comprising at least one microporous membrane having at least one outer surface or surface layer having a pore structure with a pore being an opening or a space between adjacent lamellae and which is bounded on one or both sides by a fibril or bridging structure between the adjacent lamellae and wherein at least a portion of the membrane contains groups of pores between adjacent lamellae with the lamellae oriented substantially along a transverse direction (TD) and the fibrils or bridging structures between the adjacent lamellae oriented substantially along a machine direction (MD) and an outer surface of at least some of the lamellae being substantially planar, and wherein the pore structure has at least one of: substantially trapezoidal or rectangular pores, pores with rounded corners, groups of pores with areas of missing or broken fibrils, groups of pores with a TD/MD length ratio of at least 4, groups of pores with a TD/MD length ratio of at least 6, groups of pores with a TD/MD length ratio of at least 8, groups of pores with a TD/MD length ratio of at least 9, groups of pores with at least 10 fibrils, groups of pores with at least 14 fibrils, groups of pores with at least 18 fibrils, groups of pores with at least 20 fibrils, pressed or compressed stacked lamellae, a uniform surface, a non-uniform surface, or combinations thereof. 2. The battery separator of claim 1 wherein the pore structure is closed as the result that a structure of lamellae is pressed or compressed in the thickness direction, and there are some extended micropores in a membrane surface direction. 3. The battery separator of claim 1 wherein the membrane is a polyolefin microporous membrane. 4. The battery separator of claim 3 wherein the membrane is a dry process membrane. 5. The battery separator of claim 1 wherein the membrane has a thickness from 5 μm to 25 μm and at least one of: pin removal force from 200-900 grams-force, air permeability from 50-250 Gurley seconds (JIS), porosity from 30%-90%, puncture strength from 50 g-600 g, MD/TD tensile strength ratio from 1.45-2.2, and Hot tip propagation value is from 2 to 4 mm. 6. The battery separator of claim 5 wherein the membrane has at least one of: a surface roughness from 0.0 to 1.5 um, a Tortuosity greater than 1, a Tortuosity greater than 2, a coefficient of friction of less than 0.3, a Pin Removal Force of from 200 to less than 800 grams-force, air permeability of from 50 to below 200 Gurley seconds (JIS), and a puncture strength of at least 400 g to 600 g. 7. The battery separator of claim 5 wherein the membrane is a single or multilayer dry process microporous polymer membrane wherein the membrane has been machine direction stretched and transverse direction stretched either sequentially or simultaneously, and has been subsequently calendered using at least pressure. 8. The battery separator of claim 7 wherein a roll used for calendering is smooth, textured, roughened, convex, concave, or otherwise patterned. 9. The battery separator of claim 1 wherein the membrane is a polymer membrane that comprises a polyolefin that includes a polypropylene, a polyethylene, a blend of polyolefins, a mixture of polyolefins, one or more co-polymers of a polyolefin, and combinations thereof. 10. The battery separator of claim 1 wherein the thickness of the membrane has been reduced by 2-80% by calendering. 11. The battery separator of claim 10 wherein the calendering is at least one of symmetrical and asymmetrical calendering. 12. The battery separator of claim 1 wherein the membrane is a polyethylene/polypropylene/polyethylene membrane and wherein the ratio of the thickness of the polyethylene/polypropylene/polyethylene layers ranges from 0.05/0.90/0.05 to 0.25/0.50/0.25. 13. The battery separator of claim 12 wherein the polyethylene/polypropylene/polyethylene microporous membrane has a percent porosity 20% to 75%. 14. The battery separator of claim 1 wherein the membrane has a thickness of less than 20 μm. 15. The battery separator of claim 1 wherein the membrane has a TD tensile strength of greater than 400 kgf/cm 2 . 16. The battery separator of claim 1 wherein the membrane is a ceramic coated microporous separator membrane comprising: a multilayer microporous membrane having a first and a second surface, a ceramic coating on at least one surface of said multilayer microporous membrane, wherein said ceramic coating comprises ceramic particles and a polymeric binder, and wherein at least one layer of said membrane is an MD stretched, TD stretched and calendered membrane. 17. The battery separator of claim 1 wherein the membrane is a single or multilayer dry process battery separator membrane, comprising at least one microporous polymer separator membrane wherein the at least one microporous polymer separator membrane has been machine direction stretched and transverse direction stretched either sequentially or simultaneously, and at least subsequently calendered using at least pressure to at least increase tortuosity. 18. A battery comprising the separator of claim 1 . 19. A vehicle comprising the battery of claim 18 . 20. A microporous membrane comprising at least one outer surface or surface layer having a pore structure with a pore being an opening or space between adjacent lamellae and which is bounded on one or both sides by a fibril or bridging structure between the adjacent lamellae and wherein at least a portion of the membrane contains pores between adjacent lamellae with the lamellae oriented substantially along a transverse direction (TD) and the fibrils or bridging structures between the adjacent lamellae oriented substantially along a machine direction (MD) and an outer surface of at least some of the lamellae being substantially flattened or planar, and wherein the pore structure has at least one of: substantially trapezoidal or rectangular pores, pores with rounded corners, lamellae across a width or the transverse direction, random pores, groups of pores with areas of missing or broken fibrils, groups of pores with a TD/MD length ratio of at least 4, groups of pores with a TD/MD length ratio of at least 6, groups of pores with a TD/MD length ratio of at least 8, groups of pores with a TD/MD length ratio of at least 9, groups of pores with at least 10 fibrils, groups of pores with at least 14 fibrils, groups of pores with at least 18 fibrils, groups of pores with at least 20 fibrils, pressed or compressed stacked lamellae, a uniform surface, a non-uniform surface, or combinations thereof. 21. The microporous membrane of claim 20 wherein the pore structure is closed as the result that a structure of lamellae is pressed or compressed in the thickness direction, and there are some extended micropores in a membrane surface direction. 22. The microporous membrane of claim 20 wherein the membrane comprises a polyolefin. 23. The microporous membrane of claim 22 wherein the membrane is a dry process membrane.