Rottman, Claudio published the artcileSurfactant-Induced Modification of Dopants Reactivity in Sol-Gel Matrixes, Related Products of benzofurans, the publication is Journal of the American Chemical Society (1999), 121(37), 8533-8543, database is CAplus.
Organically and bio-organically doped sol-gel materials have attracted much attention due to their ability to reproduce solution mol. activities within the ceramic environment. We take now this methodol. one step forward and explore conditions under which the dopant properties can be modified by the matrix. Specifically we report that the co-entrapment of the surfactant cetyltrimethylammonium bromide (CTAB, the modifier) at low concentrations, with an extensive series of pH indicators representing several key mol. families (the primary dopant) within tetramethoxysilane (TMOS)-derived silica sol-gel matrixes, greatly modifies the indicating performance of the primary dopant. Thus, very large pKi shifts of up to 3-4 orders of magnitude obtained upon the co-entrapment cause methyl orange (MO) to become an indicator for higher acidities and phenolphthalein for higher basicities, compared to their solution behavior. In another example, the ΔpKi between the two indicating transitions of alizarin increased from ∼4.5 pH units in solution to ∼10.5 pH units (!) in the glass, transforming it into an indicator for both the high acidic and high basic pH ranges. In yet another example, the two indicating transitions of phenol red were shifted to a more acidic pH range, pushing the tail of the more acidic titration branch into the neg. pH values range. These and other effects were found to be more pronounced by the co-entrapment than by the use of CTAB solutions or of sol-gel matrixes without CTAB, pointing to a synergetic effect between the surfactant and the silica cage. The indicators also proved highly sensitive in revealing the properties of the local environment created by the surfactant. Thus, the indicator mols. were shown to migrate and reorient within the hydrophobic and the hydrophilic regions of micellar environment, according to their acquired charge upon pH changes. The concentration-dependent and humidity-dependent surfactant aggregation processes within the silica cage were probed with MO, and the results were compared with the behavior of entrapped MO in sol-gel matrixes of varying hydrophobicities, obtained by the copolymerization of CH3Si(OCH3)3 with TMOS at various ratios, with and without CTAB. Of practical importance have been the observations that the dopant/surfactant co-entrapment greatly improves the leaching profiles: half-lives, ranging from several months to several years, were found for MO and methyl red; and using SAXS, surface area and porosity measurements, it was shown that CTAB can be used to stabilize the microscopic structure of the material upon heat-drying. This provides a potential solution to the problem of continuing structural changes, which take place with sol-gel materials long after the completion of their synthesis.
Journal of the American Chemical Society published new progress about 596-01-0. 596-01-0 belongs to benzofurans, auxiliary class Benzofuran,Naphthalene,Alcohol,Ester, name is 3,3-Bis(4-hydroxynaphthalen-1-yl)isobenzofuran-1(3H)-one, and the molecular formula is C28H18O4, Related Products of benzofurans.
Referemce:
https://en.wikipedia.org/wiki/Benzofuran,
Benzofuran | C8H6O – PubChem