Sol-gel process comprising preparation of a solution of at least one compound having the formula Xm-M-(OR)n-m addition to the solution of the dopants, hydrolysis of the compound to form the sol, possible addition of an oxide, gelling the sol, recycling the liquid and adjusting the pH-value of the li
Sol-gel process comprising preparation of a solution of at least one compound having the formula Xm-M-(OR)n-m addition to the solution of the dopants, hydrolysis of the compound to form the sol, possible addition of an oxide, gelling the sol, recycling the liquid and adjusting the pH-value of the liquid in order to fix the dopants in the aquagel, gel drying and densifying to obtain the glass.
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1. Sol-gel process comprising the following operations: a) preparing an aqueous or hydro-alcoholic solution as suspension of at least one compound having the formula Xm-M-(OR)n-m where M is a cation selected from a member of the 3rd, 4th and 5th Groups of the Element Periodic System of Elements,
1. Sol-gel process comprising the following operations: a) preparing an aqueous or hydro-alcoholic solution as suspension of at least one compound having the formula Xm-M-(OR)n-m where M is a cation selected from a member of the 3rd, 4th and 5th Groups of the Element Periodic System of Elements, n is the cation valence; m is 0, 1 or 2, X is R1 or OR1; R and R1 are the same or different hydrocarbon having a carbon atom number of 1 to 12; b) optionally adding or mixing to the solution of a desired dopant in the form of a solution or as a soluble powder containing a desired metal precursor in hydrolysable form, selected from the set of 74 elements of the Periodic Table identified as all elements of Groups IIA, IIIB, including the Lanthanide and the Actinate series IVB, VB, VIIB, VIIB, VIIIB, IB, IIB, including IIIA, with the exception of Boron, and including Germanium, Tin and Lead in group IVA. c) hydrolyzing of said compound to form a sol; d) optionally adding an oxide MOn/2 in the shape of a suitable morphology fine powder, in which M and n have the same meaning as in a); e) gelling the sol to form an aquagel; f) after forming the aquagel appropriate gellation and consolidation, adding a liquid in a controlled volume; g) transferring of liquid from a gelling mould to an analysis step; h) optionally modifying a concentration determined in the liquid to ensure a more suitable condition for the immobilization of relevant ionic species in the aquagel; i) optionally recycling of the liquid to the aquagel; j) optionally adding a suitable concentration of an M hydroxyl-derivative to medium; k) optionally adding an appropriate concentration of a suitable derivative of a metal or anionic group in order to modify or to complete the formulation, such additions being selected from metal cations of the elements identified in the set of 74 elements described in the step b); l) optionally repetition of the steps g), h), i), j), k) until the analysis of aquagel effluent matches desired parameters foreseen to obtain a final product having required characteristics; m) optionally substituting solvent in the gel pores; and n) drying the gel. 2. Sol-gel process according to claim 1, where at least one compound having the formula Xm-M-(OR)n--m is added with vigorous mechanical stirring to a solution, or a colloidal suspension of a dopant as defined in step b) wherein such dopant solution, or dispersion the pH conditions for hydrolysis of the compound and subsequent gellation are already present. 3. Sol-gel process according claim 1, in which in the step b) hydrolysis is preceded and accompanied by a specific and vigorous stirring adequate to timely separate the hydrolysis hydrolyzing from gellation. 4. Sol-gel process according to claim 1, in which the compound undergoing hydrolysis is a silicon derivative. 5. Sol-gel process according to claim 1, in which the added liquid in a controlled volume, in the step f) is water. 6. Sol-gel process according to claim 1, in which hydrolysis is carried out at a pH ranging between-2 and +1. 7. Sol-gel process according to claim 1 in which, a silicic based aquagel composition is modified in step k) by addition of Al or La derivatives to produce an optical glass. 8. Sol-gel process according to claim 1, in which a solution or colloidal suspension of the dopant, as defined in step b is introduced as a modifier of a liquid phase of the aquagel in step k) and processed according to step l). 9. Sol-gel process according to claim 1, in which the compound used in step a) is a suitable silicon derivative, and the solution, or suspension, comprises a metal salt in the presence of a free mineral acid at concentration ≧0.5 mole/l. 10. Aero-gel characterized in that all the relevant properties are predetermined and have the best possible values in connection with any possible utilization including a pore volume equal or greater than 6 cc/g, specific surface area equal or greater than 1200 m2/g, silanol concentration equal or greater than 6 m.e.q./g, and mechanical resistance equal or greater than 5 Newtons/m2 to compression and the optical property of a perfect extinction to polarized light at 90° angular intervals, observable in slides with thickness of the order of few millimetres. 11. Aero-gel according to claim 10 and, when constituted by non-doped pure silicon dioxide, is characterized by: total pore volume from 2 cc/g to 8 cc/g, surface area from 300 to 1300 m2/g, hydroxyl concentration from 2 to 11 m.mole/g. 12. A silica glass doped with aluminum exhibiting a value of refractive index measured at the Sodium d-line, (587.56 nm.), consistently equal to or above 125% with respect the values of conventional glasses of identical formulation. 13. A glass according to claim 12 produced by the vitrification of liquid radioactive wastes containing metals, including radioactive isotopes, as oxides, permanently immobilized in the glass oxide network, characterized by the homogeneity of the glass concentration of the metals and, mainly, of the radioactive isotopes. 14. A glass obtained by the sol-gel process according to claim 1, when the gel is dried and doped and is either in the form of xero-gel, or of fractured xero-gel, or of fractured aero-gel and wherein a monolithic body is achieved either by compounding it with a conventional glass and melting it in a furnace, or by inglobating doped gel into a low viscosity melt of conventional glass, or by proper inglobation in concrete artefacts in the proper proportion of glass to cement.
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