초록 ▼

A synthetic route for producing nanostructure metal-oxide-based materials using sol-gel processing. This procedure employs the use of stable and inexpensive hydrated-metal inorganic salts and environmentally friendly solvents such as water and ethanol. The synthesis involves the dissolution of the m

A synthetic route for producing nanostructure metal-oxide-based materials using sol-gel processing. This procedure employs the use of stable and inexpensive hydrated-metal inorganic salts and environmentally friendly solvents such as water and ethanol. The synthesis involves the dissolution of the metal salt in a solvent followed by the addition of a proton scavenger, which induces gel formation in a timely manner. Both critical point (supercritical extraction) and atmospheric (low temperature evaporation) drying may be employed to produce monolithic aerogels and xerogels, respectively. Using this method synthesis of metal-oxide nanostructured materials have been carried out using inorganic salts, such as of Fe3+, Cr3+ , Al3+, Ga3+, In3+, Hf4+, Sn4+ , Zr4+, Nb5+, W6+, Pr3+, Er3+ , Nd3+, Ce3+, U3+ and Y3+. The process is general and nanostructured metal-oxides from the following elements of the periodic table can be made: Groups 2 through 13, part of Group 14 (germanium, tin, lead), part of Group 15 (antimony, bismuth), part of Group 16 (polonium), and the lanthanides and actinides. The sol-gel processing allows for the addition of insoluble materials (e.g., metals or polymers) to the viscous sol, just before gelation, to produce a uniformly distributed nanocomposites upon gelation. As an example, energetic nanocomposites of FexOy gel with distributed Al metal are readily made. The compositions are stable, safe, and can be readily ignited to thermitic reaction.

대표청구항 ▼

What is claimed is: 1. A sol-gel process for producing an inorganic monolithic nanostructured metal-oxide aerogel or an inorganic monolithic nanostructured metal-oxide xerogel, comprising: dissolving a metal salt in a solvent at least containing water to produce a solution; inducing sol formation;

What is claimed is: 1. A sol-gel process for producing an inorganic monolithic nanostructured metal-oxide aerogel or an inorganic monolithic nanostructured metal-oxide xerogel, comprising: dissolving a metal salt in a solvent at least containing water to produce a solution; inducing sol formation; adding a proton scavenger to induce and control gelation for producing an inorganic gel; providing sufficient time for formation of said inorganic gel; and drying said inorganic gel to produce an inorganic monolithic nanostructured metal-oxide aerogel or an inorganic monolithic nanostructured metal-oxide xerogel. 2. The sol-gel process of claim 1, wherein the step of drying is carried out by one of supercritical extraction to produce said inorganic monolithic metal-oxide aerogel or by evaporation to produce said inorganic monolithic metal-oxide xerogel. 3. The sol-gel process of claim 1, additionally including washing said inorganic gel prior to the step of drying said inorganic gel. 4. The sol-gel process of claim 1, additionally including aging said inorganic gel prior to the step of drying, wherein the step of aging is for increasing strength of said inorganic gel and enabling easier drying of said inorganic gel. 5. The sol-gel process of claim 1, additionally including the step of forming metal-oxide particles from said inorganic monolithic nanostructured metal-oxide aerogel or said inorganic monolithic nanostructured metal-oxide xerogel. 6. The sol-gel process of claim 1, wherein said salt is selected from the group of inorganic salts consisting of Fe3+, Cr3+, Al3+, Ga3+, In3+, Hf4+, Sn4+, Zr4+, Nb5+, W6+, Pr3+, Er3+, Nd3+, U3+, and Y3+. 7. The sol-gel process of claim 1, wherein said inorganic monolithic nanostructured metal-oxide aerogel and said inorganic monolithic nanostructured metal-oxide xerogel contains materials selected from the group consisting of FexOy, Cr2O 3, and Al2O3. 8. The sol-gel process of claim 1, wherein said metal salt is selected from the group consisting of Fe(NO3)3.9H 2O, FeCl3.6H2O, and FeCl3, and wherein the gel formation is composed of FexOy. 9. The sol-gel process of claim 1, wherein said proton scavenger contains oxacyclo-alkane.