Organometallic solution based high resolution patterning compositions and corresponding methods

What is claimed is: 1. A coating solution consisting essentially of volatile organic solvent and an organometallic composition comprising a first organometallic compound represented by the formula RSnO (3/2−x/2) (OH) x where (0<x<3) with from about 0.0025M to about 1.0M tin in the solution, where R is an alkyl group bonded to the tin at a secondary or tertiary carbon atom. 2. The coating solution of claim 1 wherein the first organometallic compound comprises tert-butyl tin oxide hydroxide (R=—C(CH 3 ) 3 ), iso-propyl tin oxide hydroxide (R=—CH(CH 3 ) 2 ), or mixtures thereof. 3. The coating solution of claim 1 wherein the organometallic composition further comprises a second organometallic compound distinct from the first organometallic compound and represented by the formula R′SnO (3/2−x/2) (OH) x where (0<x<3) and R′ is a linear or branched alkyl. 4. The coating solution of claim 1 wherein the organic solvent comprises an alcohol. 5. A coating solution consisting essentially of an organic solvent and an organometallic composition comprising a first organometallic compound represented by the formula RSnO (3/2−x/2) (OH) x where (0<x<3), where R is an alkyl group, where the alkyl group is bonded to the tin at a secondary or tertiary carbon atom, and a second organometallic compound distinct from the first organometallic compound and represented by the formula R′SnO (3/2−x/2) (OH) x where (0<x<3), where R′ is a linear or branched alkyl group and wherein R and R′ are not the same. 6. The coating solution of claim 5 wherein the first organometallic compound comprises tert-butyl tin oxide hydroxide (R=—C(CH 3 ) 3 ) or iso-propyl tin oxide hydroxide (R=—CH(CH 3 ) 2 ). 7. The coating solution of claim 5 wherein R and R′ are each independently branched alkyl groups. 8. The coating solution of claim 5 wherein the second organometallic compound represents at least about 8 mole percent of the organometallic compounds in the coating solution. 9. The coating solution of claim 5 wherein the organometallic composition further comprises a third distinct organometallic compound represented by the formula R″SnO (3/2−x/2) (OH) x where (0<x<3), where R″ is a linear or branched alkyl group wherein the third organometallic compound represents at least about 8 mole percent of the organometallic compounds in the coating solution. 10. The coating solution of claim 5 wherein the solvent comprises an alcohol and wherein the organometallic compounds result in a tin ion concentration from about 0.0025M to about1.5M and wherein the second organometallic compound represents at least about 8 mole percent of the organometallic compounds in the coating solution. 11. A method for patterning a film on a substrate, the method comprising: exposing the film with patterned EUV doses of no more than about 80 mJ/cm 2 wherein the film has an average thickness from about 2 nm to about 50 nm and wherein the film comprises a first organometallic compound represented by the formula RSnO (3/2−x/2) (OH) x where (0<x<3), where R is an alkyl group bonded to the tin; and developing the film to form features at half-pitch no more than about 25 nm and linewidth roughness no more than about 5 nm. 12. The method of claim 11 wherein the EUV dose is from about 12 mJ/cm 2 to about 75 mJ/cm 2 . 13. The method of claim 11 wherein the half-pitch is no more than about 18 nm. 14. The method of claim 11 wherein R is bonded to the tin at a secondary or tertiary carbon. 15. The method of claim 11 further comprising developing the film following exposure to form a negative image through the removal of unexposed portions of film. 16. The method of claim 11 further comprising developing the film following exposure to form a positive image through the removal of exposed portions of film. 17. A method for patterning an organometallic film on a substrate, the method comprising: exposing the organometallic film to patterned EUV radiation at a dose-to-gel value of no more than about 15 mJ/cm 2 to obtain a contrast of at least about 6. 18. A patterned structure comprising a substrate having a surface and a coating associated with the surface wherein at least portions of the coating are represented by the formulation (R) z SnO 2−z/2−x/2 (OH) x (z>0, x>0, and 0 <(x+z)<4), where R is an alkyl group bonded to the tin at a secondary or tertiary carbon atom, wherein the coating has an average thickness of no more than about 50 nm. 19. The patterned structure of claim 18 wherein z is from about 0.25 to about 3. 20. The patterned structure of claim 18 wherein the substrate comprises polymer, elemental silicon, silica, and/or another inorganic material. 21. The patterned structure of claim 18 wherein the coating forms a pattern at least a portion of which forms features with a half-pitch of no more than about 25 nm.