Microextraction capsules and method of making

We claim: 1. A microextraction capsule (MEC), comprising an outer porous tube, an absorbent gel within pores of the porous tube, and a magnetic wire attached to or within the porous tube, where the porous tube is a plastic tube, a glass tube, or an inert metal tube and where the pore dimensions are 0.5 to 100 μm where the gel is a sol-gel formed gel comprising a metal oxide with alkyl moieties, arylene moieties, cyanoalkyl moieties, fluoroalkyl moieties, phenyl moieties, cyanophenyl moieties, biphenyl moieties, cyanobiphenyl moieties, dicyanobiphenyl, cyclodextrin moieties, crown ether moieties, cryptand moieties, calixarene moieties, or any derivative thereof, and where the magnetic wire is inserted in the length of the porous tube or coated by an inert plastic and attached to the porous tube. 2. The microextraction capsule (MEC) according to claim 1 , where the metal oxide is a silicon oxide, aluminum oxide, zirconium oxide, germanium oxide or titanium oxide. 3. The microextraction capsule (MEC) according to claim 1 , where the porous tube is 1 to 4 cm in length. 4. A method of preparing the microextraction capsule (MEC) according to claim 1 , comprising: providing the porous tube; providing a sol comprising a multiplicity of at least one metal oxide precursor, water, and optionally a solvent; contacting the sol with the porous tube, where the porous tube is infused with the sol and where the metal oxide precursor and water condense to form a gel within pores of the porous tube and confined spaces within the tube; and removing any solvent, condensation byproduct, or unreacted or fluid partially reacted sol components, where the gel is fixed within the pores of the porous tube and the confined spaces to form the microextraction capsule (MEC); and incorporating the magnetic wire, where incorporating comprises: attaching the magnetic wire to the external surface of the porous tube; or inserting the magnetic wire into the porous tube. 5. The method of preparing the microextraction capsule (MEC) according to claim 4 , where the metal oxide precursor has the structure: where, M is silicon, titanium, aluminum, zirconium, germanium, barium, gallium, indium, thallium, vanadium, cobalt, nickel, chromium, copper, iron, zinc, or boron, R 1 , R 2 , R 3 and R 4 are substituent groups, at least two of which are alkoxy, hydroxy, halide, or dialkylamino, and for at least one of the metal oxide precursors the remaining R 1 , R 2 , R 3 and R 4 independently comprise alkyl moieties, arylene moieties, cyanoalkyl moieties, fluoroalkyl moieties, phenyl moieties, cyanophenyl moieties, biphenyl moieties, cyanobiphenyl moieties, dicyanobiphenyl, cyclodextrin moieties, crown ether moieties, cryptand moieties, calixarene moieties, or any derivative thereof. 6. A method of preparing the microextraction capsule (MEC) according to claim 1 , comprising: providing the porous tube; providing a sol comprising a multiplicity of at least one metal oxide precursor, water, and optionally a solvent; condensing the water and the sol to a gel; grinding the gel into a multiplicity of particles; optionally, sealing an end of the porous tube; infusing at least a portion of the multiplicity of particles into the porous tube; sealing any remaining open ends of the porous tube to form the microextraction capsule (MEC); and incorporating the magnetic wire, where incorporating comprises: attaching the magnetic wire to the external surface of the porous tube; or inserting the magnetic wire into the porous tube. 7. The method of preparing the microextraction capsule (MEC) according to claim 6 , where the metal oxide precursor has the structure: where, M is silicon, titanium, aluminum, zirconium, germanium, barium, gallium, indium, thallium, vanadium, cobalt, nickel, chromium, copper, iron, zinc, or boron, R 1 , R 2 , R 3 and R 4 are substituent groups, at least two of which are alkoxy, hydroxy, halide, or dialkylamino, and for at least one of metal oxide precursors the remaining R 1 , R 2 , R 3 and R 4 independently comprise alkyl moieties, arylene moieties, cyanoalkyl moieties, fluoroalkyl moieties, phenyl moieties, cyanophenyl moieties, biphenyl moieties, cyanobiphenyl moieties, dicyanobiphenyl, cyclodextrin moieties, crown ether moieties, cryptand moieties, calixarene moieties, or any derivative thereof. 8. The method of preparing the microcxtraction capsule (MEC) according to claim 6 , where sealing comprises melting or fixing with a resin.