Porous material and devices for performing separations, filtrations, and catalysis and EK pumps, and methods of making and using the same

The invention claimed is: 1. A composition of matter comprising a monolith having a skeletal core and pores, said skeletal core having a substantially homogeneous polymeric composition of two or more organic silane monomers, said pores defining an interstitial volume in the skeletal core and have a pore size distribution in which there are at least macropores and less than 5% of the interstitial volume is mesopores, said macropores allowing fluid movement through the monolith: wherein said monolith is in a rigid housing having at least one wall that defines a chamber and an opening through which fluid can flow into the chamber; and wherein the monolith intimately abuts and adheres to the at least one wall with substantially no voids therebetween and fills a cross-sectional area of the chamber such that all fluid flowing into the chamber passes through the pores of the monolith. 2. The composition of matter of claim 1 in which said interstitial volume has fewer than 2% mesopores. 3. The composition of matter of claim 1 wherein said interstitial volume has fewer than 1% mesopores. 4. The composition of matter of claim 1 wherein said skeletal core has polymers which deviate from the substantially homogeneous polymeric composition to form nodules, said nodules have a nodule cross-sectional diameter and said skeletal core having a substantially homogeneous polymeric composition without a nodule has a core cross-sectional diameter wherein the ratio of the nodule cross sectional diameter to core cross sectional diameter is less than 80 to 1. 5. The composition of matter of claim 1 wherein said skeletal core has polymers which deviate from the substantially homogeneous polymeric composition to form nodules, said nodules have a nodule cross-sectional diameter and said skeletal core, having a substantially homogeneous polymeric composition without a nodule, has a core cross-sectional diameter wherein the ratio of the nodule cross sectional diameter to core cross sectional diameter is less than 50 to 1. 6. The composition of matter of claim 1 wherein said skeletal core has polymers which deviate from the substantially homogeneous polymeric composition to form nodules, said nodules have a nodule cross-sectional diameter and said skeletal core having a substantially homogeneous polymeric composition without a nodule has a core cross-sectional diameter wherein the ratio of the nodule cross sectional diameter to core cross sectional diameter is less than 10 to 1. 7. The composition of matter of claim 1 wherein said polymeric composition has a polymer distribution of substantially linear small polymer molecules and polymer molecules larger than the small polymer molecules and said polymer distribution comprises less than 0.5% small polymers. 8. The composition of matter of claim 7 wherein said small polymers have 24 silicon atoms or less. 9. The composition of matter of claim 1 wherein said two or more organic silane monomers are selected from the group comprising at least a first monomer and at least a second monomer, wherein said first monomer has a formula represented by Formula 1 below: W x B y A z Si;  Formula 1 wherein z plus y is at least 2 and z plus x plus y equal 4; W is R 1 , or R 2 O, or a halogen, or-R 3 Si(R 4 O) q T k ; and q plus k equals 3, and T is R 5 O, or R 6 , or a halogen; B is R 7 O or a halogen; A is R 8 O or a halogen and R 1 , R 2 , R 3 , R 4 , R 5 , R 6 , R 7 and R 8 are independently selected from the group of hydrogen and aliphatic groups, and wherein said second monomer is represented by Formula 1 wherein the selection of at least one of R 1-8 , W, x, y or z is different than the selection of R 1-8 , W, x, y or z for the first monomer. 10. The composition of matter of claim 9 wherein said two or more organic silane monomers comprise at least a third monomer represented by Formula 1, wherein the selection of at least one of R 1-8 , W, x, y or z is different from the selection of R 1-8 , W, x, y or z for said first monomer and different from the selection of R 1-8 , W, x, y or z for said second monomer. 11. The composition of matter of claim 9 wherein said aliphatic groups are lower alkyl groups. 12. The composition of matter of claim 10 wherein said aliphatic groups are methyl, ethyl, propyl, butyl, pentyl, hexyl, heptyl and octyl. 13. The composition of matter of claim 9 wherein said first monomer is methyltrimethoxysilane. 14. The composition of matter of claim 9 wherein said second monomer is dimethyldimethoxysilane. 15. The composition of matter of claim 10 wherein said third monomer is tetramethoxysilane. 16. The composition of matter of claim 10 wherein said third monomer is bis(trimethoxysilyl)ethane. 17. The composition of matter of claim 10 wherein said first monomer, second monomer and third monomer define proportions of the skeletal core of 10-15 parts first monomer, 1-10 parts second monomer and 0.5 to 5 parts third monomer. 18. The composition of matter of claim 1 wherein said monolith has a skeletal volume and a pore volume, said pore volume and skeletal volume forming a monolith volume which monolith volume exhibits less than 1% shrinkage as said skeletal core is formed in a polymerization reaction. 19. The composition of matter of claim 1 wherein said housing has a cylindrical or frusto-conical shape. 20. The composition of matter of claim 1 wherein said monolith in said housing is a chromatographic media. 21. The composition of matter of claim 1 wherein said monolith in said housing is catalytic. 22. The composition of matter of claim 1 wherein said skeletal core has a core mass and a skeletal volume and said pores have a pore volume which core mass, skeletal volume and pore volume define a density and such density varies by less than 5% throughout said monolith. 23. The composition of matter of claim 1 wherein said skeletal core has an interior and an exterior surface. 24. The composition of matter of claim 23 wherein said exterior surface has a second polymer layer. 25. The composition of matter of claim 24 wherein said second polymeric layer has mesopores. 26. The composition of matter of claim 23 wherein said exterior surface has one or more modifying functional groups selected from the group of aliphatic functional groups, ion exchange functional groups, chiral functional groups, and specific affinity functional groups.