Fluoropolymer article for bacterial filtration

What is claimed is: 1. A filtration article comprising; a composite filtration structure comprising: a support layer, and a stacked filter material comprising at least two fluoropolymer membranes positioned adjacent to each other; a seal region surrounding said composite filtration structure; and an attachment weld interconnecting said seal region and an outer casing, said attachment weld attaching said composite filtration structure to said outer casing, wherein said attachment weld extends a first distance from an outer periphery of said composite filtration structure and within said seal region, said first distance being greater than zero. 2. The filtration article of claim 1 , wherein said at least two fluoropolyrner membranes comprise a first fluoropolyrner membrane and a second fluoropolyrner membrane, said first fluoropolymer membrane being positioned a second distance from said second polymer membrane, said second distance being less than 100 microns. 3. The filtration article of claim 2 , wherein said first fluoropolymer membrane has a first bubble point and said second fluoropolymer membrane has a second bubble point, said first bubble point being different from said second bubble point. 4. The filtration article of claim 1 , wherein said fluoropolyrner membranes are laminated to each other. 5. The filtration article of claim 1 , wherein said stacked filter material further comprises a porous nanofiber membrane, a phase inversion membrane or a combination thereof. 6. The filtration article of claim 1 , wherein said seal region and said attachment weld are each embedded therethrough with a polymer material. 7. The filtration article of claim 1 , wherein said support layer comprises a polymer material and said seal region and said attachment weld are embedded therethrough with said polymer material. 8. The filtration article of claim 1 , wherein said support layer comprises a porous non-woven, woven, mesh or knit thermoplastic or thermoset polymer. 9. The filtration article of claim 1 , wherein at least one of said fluoropolymer membranes is an expanded polytetrafluoroethylene (ePTFE) membrane. 10. The filtration article of claim 1 , wherein said seal region is impermeable to liquid, gas, bacteria, and combinations thereof. 11. A filtration article comprising: a composite filtration structure comprising: a support layer, and a stacked filter material comprising: a first fluoropolymer membrane; a second fluoropolymer membrane; and a third fluoropolymer membrane, said second fluoropolymer membrane being positioned between said first and third fluoropolymer membranes; a seal region surrounding said composite filtration structure; and an attachment weld interconnecting said seal region and an outer casing, said attachment weld affixing said composite filtration structure to said outer casing, wherein said second fluoropolymer membrane has a first bubble point and said first and third fluoropolymer membranes have a second bubble point, said first bubble point being different from said second bubble point; and wherein said attachment weld extends a first distance from an outer periphery of said composite filtration structure and within said seal region, said first distance being greater than zero. 12. The filtration article of claim 11 , wherein said stacked filter material further comprises a porous nanofiber membrane, a phase inversion membrane, or a combination thereof. 13. The filtration article of claim 11 , wherein said stacked filter material further comprises a pre-filter comprising a porous nanofiber membrane. 14. The filtration article of claim 11 , wherein said first fluoropolymer membrane, said second fluoropolymer membrane, and said third fluoropolymer membrane are each positioned a second distance from each other, said second distance being less than 100 microns. 15. The filtration article of claim 11 , wherein at least two of said first fluoropolymer membrane, said second fluoropolymer membrane, and said third fluoropolymer membrane are laminated to each other. 16. The filtration article of claim 11 , wherein said seal region and said attachment weld are each embedded therethrough with a polymer material. 17. The filtration article of claim 11 , wherein said support layer comprises a polymer material and said seal region and said attachment weld are embedded therethrough with said polymer material. 18. The filtration article of claim 11 , wherein said support layer comprises a porous non-woven, woven, mesh, or knit thermoplastic or thermoset polymer. 19. The filtration article of claim 11 , wherein at least one of said fluoropolymer membranes is an expanded polytetrafluoroethylene (ePTFE) membrane. 20. The filtration article of claim 11 , wherein said seal region is impermeable to liquid, gas, bacteria, and combinations thereof. 21. A method of forming a filtration article comprising: constructing a composite filtration structure comprising: a support layer, and a stacked filter material comprising at least two fluoropolymer membranes positioned adjacent to each other; sealing said composite filtration structure to form a seal region and form a preform; placing said preform in an outer casing; and welding said composite filtration structure to form an attachment weld that extends a first distance from an outer periphery of said composite filtration structure and within said seal region, said first distance being greater than zero. 22. The method of claim 21 , wherein said stacked filter material comprises a first fluoropolymer membrane and a second fluoropolymer membrane, said first fluoropolymer membrane being positioned a second distance from said second polymer membrane, said second distance being less than 100 microns. 23. The method of claim 21 , wherein said first fluoropolymer membrane has a first bubble point and said second fluoropolyrner membrane has a second bubble point, said first bubble point being different from said second bubble point. 24. The method of claim 21 , wherein said fluoropolymer membranes are laminated to each other. 25. The method of claim 21 , wherein said stacked filter material further comprises a porous nanofiber membrane, a phase inversion membrane, or a combination thereof. 26. The method of claim 21 , wherein said stacked filter material further comprises a pre-filter comprising a porous nanofiber membrane. 27. The method of claim 21 , wherein said seal region and said attachment weld are each embedded therethrough with a polymer material. 28. The method of claim 21 , wherein said support layer comprises a polymer material and said seal region and said attachment weld are embedded therethrough with said polymer material. 29. The method of claim 21 , wherein said welding comprises laser welding or ultrasonic welding. 30. A method of forming a filtration article comprising: sealing a composite filtration structure to form a circumferential seal region and form a preform; and welding said preform to an outer casing and form an attachment weld, wherein said at least a portion of said seal region lies within said attachment weld, and wherein said composite filtration structure comprises: a support layer, and a membrane layer comprising at least two expanded fluoropolymer membranes positioned adjacent to each other.