Orientation of magnetic fillers to optimize film properties

What is claimed is: 1. A magnetic shielding film comprising opposing first and second major surfaces and a plurality of particles dispersed therebetween, each particle having a magnetic permeability, a thickness H along a thickness direction of the particle, and a longest dimension L along a length direction of the particle orthogonal to the thickness direction, L/H greater than or equal to 2, the particles defining a plurality of voids therebetween, the length directions of at least 60% of the particles oriented within 5.5 degrees of a same orientation direction, such that in a cross-section of the magnetic shielding film in a vertical direction substantially orthogonal to at least one of the first and second major surfaces, the magnetic shielding film comprises a plurality of pairs of vertically adjacent particles, wherein a plurality of substantially parallel elongate polymeric elements connects the particles in each of the pairs of vertically adjacent particles. 2. The magnetic shielding film of claim 1 , wherein at least some of the voids in the plurality of voids are interconnected. 3. The magnetic shielding film of claim 1 , wherein the substantially parallel elongate polymeric elements that connect the particles in each of the pairs of vertically adjacent particles, are substantially oriented along the vertical direction. 4. The magnetic shielding film of claim 1 , wherein the elongate polymeric elements comprise polyethylene. 5. The magnetic shielding film of claim 1 , wherein the orientation direction is substantially parallel to the first and second major surfaces. 6. The magnetic shielding film of claim 1 , wherein the particles are rod-shaped or disc-shaped. 7. The magnetic shielding film of claim 1 , wherein the particles comprise one or more of iron, silicon, aluminum, chromium, nickel, copper, cobalt, and molybdenum. 8. The magnetic shielding film of claim 1 , wherein the particles comprise magnetic coatings on outermost surfaces thereof. 9. The magnetic shielding film of claim 8 , wherein the uncoated particles do not have magnetic permeability. 10. The magnetic shielding film of claim 1 having real parts of relative permeability μ′1 and μ′2 along respective thickness and in-plane directions of the film, μ′2/μ′1≥100 at a frequency of about 1 MHz. 11. The magnetic shielding film of claim 10 , wherein μ′1≤5 at about 1 MHz. 12. The magnetic shielding film of claim 10 having an average thermal conductivity of at least 0.15 W/(m·K) along a thickness direction of the magnetic shielding film. 13. The magnetic shielding film of claim 10 having an average thermal conductivity of at least 5 W/(m·K) along an in-plane direction of the magnetic shielding film. 14. The magnetic shielding film of claim 1 , wherein the particles have an average thickness in a range from about 0.5 microns to about 5 microns, and an average longest dimension in a range from about 20 microns to about 200 microns. 15. The magnetic shielding film of claim 1 , wherein the particles are thermally conductive. 16. The magnetic shielding film of claim 1 , wherein the particles comprise thermally conductive coatings on outermost surfaces thereof. 17. The magnetic shielding film of claim 1 further comprising a resin disposed between the first and second major surfaces, the plurality of particles dispersed in the resin, the resin having a number average molecular weight greater than about 10 4 g/mol. 18. The magnetic shielding film of claim 17 , wherein the number average molecular weight of the resin is less than about 10 7 g/mol. 19. The magnetic shielding film of claim 1 , wherein the particles in the plurality of particles are dispersed between the first and second major surfaces at a volume loading of greater than about 50 percent.