Separators for electrochemical systems

We claim: 1. A separator system for an electrochemical system comprising: a first high mechanical strength layer having a plurality of apertures extending entirely through said first high mechanical strength layer and provided in a first pattern; and a second high mechanical strength layer having a plurality of apertures extending entirely through said second high mechanical strength layer and provided in a second pattern; said second pattern having an off-set alignment relative to said first pattern such that an overlap of said apertures of said first high mechanical strength layer and said apertures of said second high mechanical strength layer along axes extending perpendicularly from said first high mechanical strength layer to said second high mechanical strength layer is less than or equal to 20%; wherein a path defined by said offset alignment prevents dendrite growth fully along said path between a positive electrode and a negative electrode during cycling of an electrochemical cell; wherein said first high mechanical strength layer and said second high mechanical strength layer are positioned such that ions of an electrolyte provided in contact with the first high mechanical strength layer and said second high mechanical strength layer are able to be transported through the first high mechanical strength layer and said second high mechanical strength layer; wherein said first high mechanical strength layer and said second high mechanical strength layer independently have a propagating tear strength selected over the range of 0.005 N to 10 N and an initiating tear strength selected over the range of 10 N to 500 N, such that said first high mechanical strength layer and said second high mechanical strength layer are configured to stop dendrite penetration therethrough during cycling of said electrochemical cell; and wherein combination of said path that prevents dendrite growth and said first and second high mechanical strength layers configured to stop dendrite penetration prevents shorting via dendrite growth in said electrochemical cell during cycling of said electrochemical cell. 2. The separator system of claim 1 , wherein the overlap of said apertures of said first pattern and said second pattern along said axes extending perpendicularly from said first high mechanical strength layer to said second high mechanical strength layer is less than or equal to 10%. 3. The separator system of claim 1 , wherein the overlap of said apertures of said first pattern and said second pattern along said axes extending perpendicularly from said first high mechanical strength layer to said second high mechanical strength layer is selected from the range of 0 to 5%. 4. The separator system of claim 1 , wherein said first pattern and said second pattern comprise substantially complementary patterns. 5. The separator system of claim 1 , further comprising one or more low ionic resistance layers provided on a side of at least one of the high mechanical strength layers. 6. The separator system of claim 5 , wherein at least one of said low ionic resistance layers is a deposited layer that is deposited on at least one of said high mechanical strength layers and/or wherein at least one of said low ionic resistance layers is a deposited layer that is deposited on an electrode of an electrochemical cell. 7. The separator system of claim 5 , wherein; each one of said one or more low ionic resistance layers independently has an ionic resistance less than or equal to 20 ohm-cm 2 ; and said one or more low ionic resistance layers comprise a spacer provided between said first and second high mechanical strength layers, said spacer separating said first and second layers by a selected distance selected from the range of 10 nm to 1000 μm. 8. The separator system of claim 5 , wherein said one or more low ionic resistance layers comprise one or more frame layers in physical contact with at least one of said high mechanical strength layers or with at least one electrode of an electrochemical cell. 9. The separator system of claim 1 , further comprising one or more chemical barrier layers provided on a side of at least one of the high mechanical strength layers or said one or more low ionic resistance layers; wherein said one or more chemical barrier layers independently prevents transportation of unwanted chemical components through said one or more chemical barrier layers to a positive electrode or a negative electrode of an electrochemical cell. 10. The separator system of claim 9 , wherein the separator system is a component of an electrochemical cell having a negative electrode and a positive electrode, wherein said one or more chemical barrier layer comprise an ion conductive protective membrane, wherein said ion conductive protective membrane provides a barrier between a first electrolyte in contact with said positive electrode and a second electrolyte in contact with said negative electrode, wherein said ion conductive protective membrane prevents contact between said negative electrode and said first electrolyte. 11. The separator system of claim 1 , further comprising a third high mechanical strength layer having a plurality of apertures extending entirely through said third high mechanical strength layer and provided in a third pattern; said third high mechanical strength layer positioned between said first high mechanical strength layer and said second high mechanical strength layer; said third pattern having an off-set alignment relative to said first pattern or said second pattern such that an overlap of said apertures of said first pattern or said second pattern and said apertures of said third pattern along axes extending perpendicularly from said first high mechanical strength layer or said second high mechanical strength layer to said third high mechanical strength layer is less than or equal to 20%. 12. The separator system of claim 11 , further comprising a fourth high mechanical strength layer having a plurality of apertures extending entirely through said fourth high mechanical strength layer and provided in a fourth pattern; said fourth high mechanical strength layer positioned between said first high mechanical strength layer and said second high mechanical strength layer, said fourth pattern having an off-set alignment relative to said first pattern, said second pattern or said third pattern such that an overlap of said apertures of said first pattern, said second pattern or said third pattern and said apertures of said fourth pattern along axes extending perpendicularly from said first high mechanical strength layer or said second high mechanical strength layer to said fourth high mechanical strength layer is less than or equal to 20%. 13. The separator system of claim 1 , wherein said patterns of apertures provide a porosity to said high mechanical strength layers greater than or equal to 30%. 14. The separator system of claim 1 , wherein said first high mechanical strength layer and said second high mechanical strength layer independently have an average thickness selected over the range 5 □m to 1 mm. 15. The separator system of claim 1 , wherein said first high mechanical strength layer and said second high mechanical strength layer independently have a Young's modulus selected over the range of 500 MPa to 500 GPa. 16. The separator system of claim 1 , wherein said firsthigh mechanical strength layer and said second high mechanical strength layer independently have a yield strength selected over the range of 5 MPa to 1000 MPa, an impact strength selected over the range of 10 N cm to 1000 N cm and a tensile