Crosslinked functional binders and their use in silicon-containing anodes of lithium-ion batteries

What is claimed is: 1. A crosslinked polymer composition comprising: (i) a base polymer containing a multiplicity of at least one type of functional group selected from amino, amido, thiol, carboxylic acid, carboxylic acid ester, and epoxy groups; (ii) a multiplicity of hydroxylated benzene rings covalently linked to the base polymer, wherein each hydroxylated benzene ring contains at least two hydroxy groups, and with at least two of the hydroxy groups on said hydroxylated benzene rings being free as OH groups; and (iii) a multiplicity of crosslinking groups that crosslink at least two of said functional groups in the base polymer. 2. The crosslinked polymer of claim 1 , wherein the base polymer contains at least amino groups. 3. The crosslinked polymer of claim 2 , wherein the base polymer is a polysaccharide. 4. The crosslinked polymer of claim 3 , wherein said polysaccharide is chitosan. 5. The crosslinked polymer of claim 2 , wherein at least a portion of said amino groups are crosslinked by said crosslinking groups. 6. The crosslinked polymer of claim 1 , wherein said crosslinking groups contain at least one —CH 2 — linkage, with each end of the cros slinking group bound to a functional group on the base polymer. 7. The crosslinked polymer of claim 1 , wherein component (ii) is a multiplicity of catechol groups. 8. The crosslinked polymer of claim 1 , wherein no more than 50% of the polymerized units in the base polymer are bound to component (ii). 9. The crosslinked polymer of claim 1 , wherein component (iii) is present in an amount of no more than 20 wt % by weight of the crosslinked polymer. 10. The crosslinked polymer of claim 1 , wherein the base polymer contains at least one type of functional group selected from the group consisting of amino, amido, and thiol groups, and wherein at least a portion of said functional groups is crosslinked by said cros slinking groups. 11. The crosslinked polymer of claim 1 , wherein the base polymer contains functional groups selected from amino and amido groups, and wherein at least a portion of said functional groups is crosslinked by said crosslinking groups. 12. A lithium-ion battery comprising: (a) an anode comprising silicon nanoparticles embedded within a crosslinked polymer composition; (b) a cathode; and (c) a lithium-containing electrolyte in contact with said anode and cathode; wherein said crosslinked polymer composition comprises: (i) a base polymer containing a multiplicity of at least one type of functional group selected from amino, amido, thiol, carboxylic acid, carboxylic acid ester, and epoxy groups; (ii) a multiplicity of hydroxylated benzene rings covalently linked to the base polymer, wherein each hydroxylated benzene ring contains at least two hydroxy groups, and with at least two of the hydroxy groups on said hydroxylated benzene rings being free as OH groups; and (iii) a multiplicity of crosslinking groups that crosslink at least two of said functional groups in the base polymer. 13. The lithium-ion battery of claim 12 , wherein said anode further comprises an electrically conducting carbon component embedded within the crosslinked polymer composition. 14. The lithium-ion battery of claim 13 , wherein said electrically conducting carbon component comprises carbon black. 15. The lithium-ion battery of claim 12 , wherein said cathode is selected from lithium metal and lithium-intercalated materials. 16. The lithium-ion battery of claim 12 , wherein the base polymer contains at least amino groups. 17. The lithium-ion battery of claim 16 , wherein the base polymer is a polysaccharide. 18. The lithium-ion battery of claim 17 , wherein said polysaccharide is chitosan. 19. The lithium-ion battery of claim 16 , wherein at least a portion of said amino groups are crosslinked by said crosslinking groups. 20. The lithium-ion battery of claim 12 , wherein said cros slinking groups contain at least one —CH 2 — linkage, with each end of the cros slinking group bound to a functional group on the base polymer. 21. The lithium-ion battery of claim 12 , wherein component (ii) is a multiplicity of catechol groups. 22. The lithium-ion battery of claim 12 , wherein no more than 50% of the polymerized units in the base polymer are bound to component (ii). 23. The lithium-ion battery of claim 12 , wherein component (iii) is present in an amount of no more than 20 wt % by weight of the crosslinked polymer.