Porous polybenzimidazole membrane supports for composite membranes

What is claimed: 1. A porous PBI membrane, comprising: a fabric layer; a PBI layer bonded to the fabric layer; and further characterizable by: wherein the PBI layer comprises a pore size of less than 50 nm, and a surface porosity of at least 8%; or wherein the PBI layer comprises finger-like pores observed from the cross-section under microscope, and wherein at least 50 vol % of the pores in the PBI layer have an aspect ratio of at least 2, wherein aspect ratio is defined as maximum length divided by average diameter of each pore, and where length is perpendicular to the surface of the fabric layer. 2. The porous PBI membrane of claim 1 wherein the PBI layer has a surface porosity of at least 5%. 3. The porous PBI membrane of claim 1 wherein the PBI layer has a solvent resistance such that, if soaked in chloroform, tetrahydrofuran, or acetone for 1 hour and then dried, the soaked and then dried PBI membrane comprises a gas permeance at least 90% its permeance measured before the solvent soaking. 4. The porous PBI membrane of claim 1 further comprising a CO 2 selective layer forming a composite membrane and wherein the composite membrane has a CO 2 permeance of at least 1000 GPU and a CO 2 /N 2 selectivity of at least 8 at 25° C. and a feed pressure of 1 atm. 5. The porous PBI membrane of claim 1 further comprising a CO 2 selective layer forming a composite membrane, wherein the CO 2 selective layer has a thickness in the range of 100 to 500 nm and wherein the composite membrane has β CO2 of at least 10%. 6. The porous PBI membrane of claim 1 comprising a CO 2 selective layer, wherein the CO 2 selective layer comprises poly(ethylene oxide terephthalate)-poly(butylene terephthalate). 7. The porous PBI membrane of claim 1 comprising a CO 2 selective layer, comprising a CO 2 permeance as a function of the thickness of the CO 2 selective layer of about 12.6 kGPU at a CO 2 selective layer thickness of 100 nm to about 5000 GPU at a CO 2 selective layer thickness of 450 nm or any value along a line between these points. 8. A porous PBI membrane-supported composite membrane or a composite membrane intermediate, comprising: the porous PBI membrane of claim 1 ; and a top layer coated on the PBI layer so that the porous PBI layer is sandwiched between the fabric layer and the top layer. 9. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer comprises polydimethylsiloxane attached to the PBI layer. 10. The porous PBI membrane of claim 1 , wherein the PBI layer comprises PBI with an R group selected from the group consisting of p-phenylene, pyridine, diphenyl sulfone, hexafluoroisopropylidene, 2,2′-bis(trifluoromethyl)-4,4′-biphenyl, perfluorocyclobutyl, phenylindane, and combinations thereof. 11. The porous PBI membrane of claim 1 , wherein the fabric layer is a non-woven fabric comprising a polyphenylene sulfide non-woven fabric. 12. The porous PBI membrane of claim 1 , wherein the fabric layer is a non-woven fabric selected from polyester, polyethylene, polypropylene, or polyetherether ketone non-woven fabrics. 13. The porous PBI membrane of claim 1 wherein the PBI layer has a heat resistance such that the porous PBI membrane, if annealed to 200° C., comprises a CO 2 permeance of at least 150 kGPU. 14. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer comprises at least one material showing selective permeability to one gas over a different gas. 15. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer is polymeric. 16. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer comprises PDMS or polymer/inorganic hybrid materials. 17. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer comprises inorganic materials. 18. The porous PBI membrane supported-composite membrane or composite membrane intermediate of claim 8 wherein the top layer comprises graphene oxides, metal-organic frameworks, and molybdenum disulfide, or combinations thereof. 19. The porous PBI membrane of claim 1 wherein the porous PBI membrane is characterizable by a CO 2 permeance in the range of 20 to 400 kGPU, or a N 2 permeance in the range of 20 to 500 kGPU, or a gas (CO 2 or N 2 ) permeance of at least 200 kGPU. 20. A porous PBI membrane, comprising: a fabric layer; a PBI layer bonded to the fabric layer; and further characterizable by: wherein the PBI layer comprises finger-like pores observed from a cross-section under microscope, and wherein at least 50 vol % of the pores in the PBI layer have an aspect ratio of at least 2; and, wherein aspect ratio is defined as maximum length divided by average diameter of each pore, and where length is perpendicular to the surface of the fabric layer, wherein the PBI layer has a solvent resistance such that, if soaked in chloroform, tetrahydrofuran, or acetone for 1 hour, the PBI layer, after soaking and drying, comprises a gas permeance at least 90% of its permeance measured before the solvent soaking.