Fabric Phase Sorptive Extractors

We claim: 1 . A fabric phase sorptive extractor (FPSE), comprising: a flexible fabric; a binding gel film, wherein the binding gel film is bound or bonded to the flexible fabric and wherein the binding gel film comprises a first metal oxide portion, and/or a first siloxy portion, and/or a first organic portion; a first absorbent gel film bound to the binding gel film, wherein the first absorbent gel film comprises at least two of: a second metal oxide portion; a second siloxy portion; and a second organic portion, wherein the second siloxy portion and/or the second organic portion is polymeric, wherein at least a portion of the first absorbent gel film is amorphous, wherein the first absorbent gel film is absorbent toward at least one target analyte; and optionally, at least one second absorbant gel film bound to the binding gel film or the first absorbent gel film or one of the at least one second absorbent film, wherein the second absorbent gel film comprises at least two of: a second metal oxide portion; a second siloxy portion; and a second organic portion, wherein the second siloxy portion and/or the second organic portion is polymeric, wherein at least a portion of the first absorbent gel film is amorphous, wherein the second absorbent gel film is absorbent toward at least one target analyte and wherein the FPSE is flexible. 2 . The FPSE of claim 1 , wherein the flexible fabric is cotton, cellulose, silk, wool, glass fiber, polyesters, polyamides, polyacrylates, polymethacrylates, polyethylene, polypropylene, polyvinylidene fluoride, polyacrylonitrile, or cellulose acetate. 3 . The FPSE of claim 1 , wherein the flexible fabric is a woven or knitted fabric of threads or yarns comprising a plurality of fibers. 4 . The FPSE of claim 1 , wherein the second metal oxide portion is a silica, titania, alumina, zirconia, germania, barium oxide, gallium oxide, indium oxide, thallium oxide, vanadium oxide, cobalt oxide, nickel oxide, chromium oxide, copper oxide, iron oxide, lanthanum oxide, niobium oxide, zinc oxide, boron oxide, any combination thereof, or a substituted metal oxide from a precursor of the structure: wherein: M is silicon, titanium, aluminum, zirconium, germanium, barium, gallium, indium, thallium, vanadium, cobalt, nickel, chromium, copper, iron, lanthanum, niobium, zinc, or boron; at least two of R 1 , R 2 , R 3 and R 4 are independently alkoxy, hydroxy, halides, hydrogen or dialkylamino, and remaining R 1 , R 2 , R 3 and R 4 are independently substituted or unsubstituted alkyl, aryl, cyanoalkyl, fluoroalkyl, phenyl, cyanophenyl, biphenyl, cyanobiphenyl, dicyanobiphenyl, cyclodextrin moieties, crown ether moieties, cryptand moieties, calixarene moieties, dendrimer moieties, graphene moieties, carbon nanotubes, or wherein the R 1 , R 2 , R 3 and R 4 is chiral or achiral. 5 . The FPSE of claim 1 , wherein the second siloxy portion can be formed from a hydrolysis and condensation of a trialkoxyalkylsilane, trialkoxyarylsilane, dialkoxydialkylsilane, alkoxyalkylarylsilane, dialkoxydiarylsilane, triacetoxyalkylsilane, triacetoxyarylsilane, diacetoxydialkylsilane, diacetoxyalkylarylsilane, diacetoxydiarylsilane, trichloroalkylsilane, trichloroarylsilane, dichlorodialkylsilane, chloroalkylarylsilane, dichlorodiarylsilane, tri(dialkyamino)alkylsilane, tri(dialkyamino)arylsilane, di(dialkyamino)dialkylsilane, di(dialkyamino)alkylarylsilane, di(dialkyamino)diarylsilane, or any combination thereof, wherein alkyl groups are C 1 to C 4 alkyl groups and aryl groups phenyl groups, alkyl substituted phenyl groups, or polycyclic aromatic groups, wherein the alkyl groups and phenyl groups are unsubstituted or independently substituted with amino, hydroxyl, carboxylic acid, acid anhydride, epoxy, acrylate, methacrylate, vinyl, or reaction residue therefrom. 6 . The FPSE of claim 1 , wherein the second organic portion is monomeric, oligomeric or polymeric. 7 . The FPSE of claim 1 , wherein the second organic portion comprises poly(ethylene oxide), polypropylene oxide, poly(ethylene oxide-co-propylene oxide), poly(butylene oxide), polyamide, polyester, or polybutadiene, where one or more carbons of the organic portion is unsubstituted or independently substituted with an amino, hydroxyl, carboxylic acid, acid anhydride, epoxy, acrylate, methacrylate, vinyl, or reaction residue therefrom. 8 . The FPSE of claim 1 , wherein the second siloxy portion and/or organic portion comprises at least one Si or C atom independently substituted with a bidentate ligand, polydentate ligand, crown ether, cryptand, aryene, graphene, fullerene, hydroxyfullerene, cyclodextrin, calixarene, or carbon nanotubes. 9 . The FPSE of claim 1 , wherein a surface of the first absorbent gel film or at least one of the at least one second absorbent gel film that is distal to the flexible fabric has a surface area greater than the flexible fabric's surface area. 10 . The FPSE of claim 1 , wherein the first absorbent gel film and/or at least one of the at least one second absorbent gel film comprises pores and/or cavities matched in shape and size to one or more target analytes. 11 . The FPSE of claim 1 , wherein the first absorbent gel film and the at least one second absorbent gel films are stacked from the binding gel film. 12 . The FPSE of claim 1 , wherein the first absorbent gel film and the at least one second absorbent gel film are bound to a plurality of portions of the binding gel film. 13 . A method of preparing a FPSE according to claim 1 , comprising: providing a flexible fabric; depositing a first sol on a surface of the flexible fabric; curing the first sol into a binding gel film; optionally removing any unreacted portions of the first sol or non-bound side products formed during curing from the binding gel film; depositing at least one second sol on a surface of the binding gel film; curing the at least one second sol into a first absorbent gel film and optionally at least one second absorbent gel film; and optionally removing any unreacted portions of the at least one second sol or non-bound side products formed during curing from the first absorbent gel film and any of the at least one second absorbent gel film. 14 . The method of preparing a FPSE of claim 13 , wherein the depositing at least one second sol comprises sequential depositing as a plurality of layers. 15 . The method of preparing a FPSE of claim 13 , wherein the depositing at least one second sol comprises ink-jet printing or any other process that places the first absorbent gel film and the at least one second absorbent gel film on different portions of the flexible fabric. 16 . The method of preparing a FPSE of claim 13 , wherein curing comprises an acid or a base catalyzed hydrolysis and condensation. 17 . The method of preparing a FPSE of claim 16 , further comprising an addition or polyaddition reaction catalyzed by an acid, a base, or a free radical initiator. 18 . A method of sampling a target analyte, comprising: providing a FPSE according to claim 1 , wherein each of the first absorbent gel film and, optionally, the at least one second absorbent gel film is absorbent of at least one target analyte; contacting the FPSE with an environment suspected of containing the target analyte; and separating the FPSE from the environment suspected of containing the target analyte, wherein at least a portion of the target analyte contained in the environment suspected