Functionalized support for analytical sample preparation

What is claimed is: 1. A solid phase sorbent for preparation of analytical samples, comprising particles that are surface modified with an α-cyclodextrin moiety, wherein the α-cyclodextrin moiety is covalently linked to the surface of the particles via a carbamate, a thiocarbamate, an ester, an amide, a thioamide, or a keto linking group, and the α-cyclodextrin moiety is α-cyclodextrin or a modified α-cyclodextrin, wherein at least one glucose subunit of the modified α-cyclodextrin is modified with an alkyl, an acyl, an amine, a thiol, an aldehyde, a ketone, an azide, a carboxylic acid, an active ester, or an isothiocyanate group. 2. The solid phase sorbent of claim 1 , wherein the particles comprise the formula: wherein: L is a linker; α-CD is the α-cyclodextrin moiety and n is 0, or an integer from 1 to 6. 3. The solid phase sorbent of claim 1 , wherein the α-cyclodextrin moiety is a modified α-cyclodextrin that includes a specific binding moiety, a water soluble group, or a detectable moiety. 4. A solid phase sorbent for preparation of analytical samples, comprising particles that are surface modified with an α-cyclodextrin moiety, wherein the particles comprise the formula: wherein: L 1 is a linker; Z 1 is a linking functional group selected from carbamate, thiocarbamate, ester, amide, thioamide, and keto; Z 2 is a linking functional group selected from carbamate, thiocarbamate, ester, amide, thioamide, urea, thiourea, amino, keto and ether; α-CD is the α-cyclodextrin moiety, wherein the α-cyclodextrin moiety is α-cyclodextrin or a modified α-cyclodextrin, wherein at least one glucose subunit of the modified α-cyclodextrin is modified with an alkyl, an acyl, an amine, a thiol, an aldehyde, a ketone, an azide, a carboxylic acid, an active ester, or an isothiocyanate group and n is 0, or an integer from 1 to 6. 5. The solid phase sorbent of claim 4 , wherein: the particles are silica particles; Z 1 is independently selected from —N(R′)C(═O)—, —N(R′)C(═O)O—, —N(R′)C(═S)—, —N(R′)C(═S)O—, —CO—, and —CO 2 —, and Z 2 is independently selected from —N(R′)C(═O)—, —N(R′)C(═O)O—, —N(R′)C(═S)—, —N(R′)C(═S)O—, —N(R′)C(═O)N(R′)—, —N(R′)C(═S)N(R′)—, —CO—, —CO 2 —, —NR′—, and —O— wherein each R′ is independently H, a lower alkyl or a substituted lower alkyl; L 1 is a C 1 -C 20 alkyl, C 1 -C 20 substituted alkyl, C 1 -C 20 aryl, C 1 -C 20 substituted aryl, C 1 -C 20 heteroaryl, C 1 -C 20 substituted heteroaryl or a PEG linking group; and α-CD is the α-cyclodextrin moiety. 6. The solid phase sorbent of claim 4 , wherein the particles comprise the formula: wherein each R′ is independently H, alkyl or substituted alkyl. 7. The solid phase sorbent of claim 4 , wherein L 1 is selected from: a) —(CH 2 ) m — where m is an integer from 2 to 12; b) wherein p is 0 or an integer from 1 to 6; c) wherein q is 0 or an integer from 1 to 6; d) wherein each R″ is an optional substituent; e) wherein R″ is an optional substituent; and f) wherein R″ is an optional substituent; and g) wherein r, s and t are independently an integer from 2 to 12. 8. The solid phase sorbent of claim 1 , wherein the linked α-cyclodextrin moiety has the structure: 9. The solid phase sorbent of claim 1 , wherein the particles are surface modified with a thin film of the α-cyclodextrin moiety. 10. The solid phase sorbent of claim 9 , wherein the thin film comprises a monolayer of the α-cyclodextrin moiety attached to the surface of a particle. 11. A method of reducing matrix effects in an analytical sample, the method comprising: contacting a sample comprising a matrix-interfering agent and an analyte with the solid phase sorbent of claim 1 to produce a contacted sample wherein the matrix-interfering agent binds to the α-cyclodextrin modified particles; separating the α-cyclodextrin modified particles from the contacted sample to produce a matrix-reduced composition; and detecting the analyte in the matrix-reduced composition. 12. The method of claim 11 , wherein the matrix-reduced composition has a reduced deleterious effect on sensitivity of the detecting the analyte. 13. The method of claim 11 , further comprising quantitating the amount of analyte in the sample, wherein the matrix-reduced composition has reduced matrix effects on the quantitating the amount of analyte. 14. The method of claim 11 , wherein the matrix interfering agent is an aliphatic lipid and the support binds the aliphatic lipid via a lipid-α-cyclodextrin complex. 15. A system for analytical sample treatment, comprising: a container having a fluid inlet and a fluid outlet; a solid phase sorbent according to claim 1 disposed in the container. 16. The system of claim 15 , further comprising a non-drip frit operably connected to the solid phase sorbent that is disposed in the container between the solid phase sorbent and the fluid inlet. 17. The solid phase sorbent of claim 4 , wherein the α-cyclodextrin moiety is α-cyclodextrin. 18. The solid phase sorbent of claim 1 , wherein the α-cyclodextrin moiety is α-cyclodextrin, methyl-α-cyclodextrin, or (2-hydroxypropyl)-α-cyclodextrin. 19. The solid phase sorbent of claim 1 , wherein the α-cyclodextrin moiety is α-cyclodextrin. 20. The method of claim 14 , where in the method further comprises eluting the aliphatic lipid from the support.