Microlayer membranes, improved battery separators, and related methods

The invention claimed is: 1. A battery separator comprising a multilayer microporous film that comprises: a first membrane comprising three layers; a second membrane comprising three layers; and a third membrane comprising three layers, wherein the first membrane defines an outermost membrane of the multilayer microporous film and comprises at least one slip or block agent from the group consisting of lithium stearate in combination with polyethylene beads or siloxane, calcium stearate in combination with polyethylene beads or siloxane, polyethylene beads, siloxane, and any combination thereof; and further wherein the first, second, and third membranes are each first coextruded in the absence of solvent to produce dry process membranes which comprise no solvent and wherein the first, second and third membranes are subsequently laminated together under heat and/or pressure; and wherein the separator has a dimensional change of less than −20% at a force of 5 N. 2. The battery separator of claim 1 wherein the first, second and third membranes each including at least two microlayers and having a mixed penetration (N) value of greater than 380 N. 3. The battery separator of claim 1 wherein the microporous multilayer film having lower standard deviation value for the dielectric break down from about 70V to about 163V. 4. The battery separator of claim 1 , the multilayer microporous film having or exhibiting at least one of following: (a) mixed penetration (N) value greater than 380 N; (b) mixed penetration (N) value greater than 600 N; (c) a tortuosity of 1.8 or higher; (e) a minimum dielectric breakdown value (V) from about 1260 to about 1585; and (g) that passes a nail penetration test; (h) having at least one microlayer including, PO, PP and/or PE and an elastomer; (i) having at least one microlayer including siloxane; (j) having at least one microlayer that includes PP and an elastomer; (k) having at least one microlayer including a co-polymer (l) having at least one microlayer that includes PP and a co-polymer; (m) having at least two microlayers that include different resins or resin blends; (t) wherein one of the regions comprises PE and has a crystallinity from about 73.8% to about 81.2%; (u) the multilayer microporous film has 30 to 100 microlayers; (v) wherein at least one of the microlayers comprises lithium stearate; (x) wherein at least one of the microlayers comprises PE beads; (y) having a pin removal of less than 50 N; and (bb) may be a precursor for at least one of transverse direction (TD) stretching, calendaring, and pore filling. 5. The battery separator of claim 1 , wherein the first membrane comprises two layers and each of the two layers of the first membrane, and each of the three layers of each of the second, and third membranes have a thickness of from 0.1 to 5 microns. 6. The battery separator of claim 1 , wherein the second membrane is laminated to and between the first membrane and the third membrane. 7. The battery separator of claim 1 , wherein the PE is a blend of 95% high density polyethylene with melt index between 0.25-0.5 g/10 min at 2.16 kg and 190° C., and density range between 0.955-0.966 g/cm3 and 5% mLLDPE. 8. The battery separator of claim 1 , having an average dielectric breakdown value (V) from about 1504 to about 2060. 9. The battery separator of claim 1 wherein the multilayer microporous film, when measured using mercury intrusion porosimetry, exhibits a peak mercury intrusion value of log differential intrusion 5 mL/g or less. 10. The battery separator of claim 1 having a MacMullin number above 5. 11. The battery separator of claim 1 having a tortuosity value of 1.6 or higher. 12. The battery separator of claim 1 having a pin removal force of less than 50 N. 13. The battery separator of claim 1 , wherein the first, second, and third membranes each comprise at least one from the group consisting of polyolefin, polyethylene, and polypropylene.