Split-Pool Method for Synthesis of Solid-State Material Combinatorial Libraries

Citations Over TimeTop 21% of 2002 papers

Abstract

The synthesis and analysis of inorganic material combinatorial libraries by the split-pool bead method were demonstrated at the proof-of-concept level. Millimeter-size spherical beads of porous gamma-alumina, a commonly used support material for heterogeneous catalysts, were modified with Al(13)O(4)(OH)(24)(H(2)O)(12)(7+) cations in order to promote irreversible adsorption of the anionic fluorescent dyes Cascade Blue, Lucifer Yellow, and Sulforhodamine 101. The compositions of individual beads were easily determined through three split-pool cycles using a conventional fluorescence plate reader. Small split-pool material libraries were made by adsorbing noble metal salts (H(2)PtCl(6), H(2)IrCl(6), and RhCl(3)) into the beads. Analysis of these beads by micro-X-ray fluorescence showed that quantitative adsorption of metal salts without cross-contamination of beads could be achieved at levels (0.3 wt % metal loading) relevant to heterogeneous catalysis. The method offers the potential for synthesis of rather large libraries of inorganic materials through relatively simple benchtop split-pool chemistry.

Related Papers

• → Synthesis and evaluation of paclitaxel C7 derivatives: Solution phase synthesis of combinatorial libraries(1998)23 cited
• → Solution-Phase Synthesis of Novel Linear Oxyamine Combinatorial Libraries with Antibacterial Activity(1998)11 cited
• Combinatorial parallel synthesis of biologically active libraries on soluble polymer supports(2003)
• Recent Advance in Solution - Phase Combinatorial Synthesis(2000)
• → Solid Phase Synthesis of 1,2,4-Triazinan-3-ones(2001)