Phase separation of organic/inorganic hybrids induced by calcination: A novel route for synthesizing mesoporous silica and carbon materials

Mesoporous silica and carbon materials have been successfully synthesized via a novel calcination induced phase separation of organic/inorganic hybrids prepared from solvothermal polymerization of polyvinyl alcohol (PVA) and tetraethyl orthosilicate (TEOS) in dimethyl sulfoxide (DMSO). Combined characterizations of XRD, nitrogen isotherms, and TEM techniques show that the samples have worm-like mesostructures with uniform pore size distributions and large BET surface areas. 1H NMR spectra reveal that ethanol was generated after the solvothermal treatments, indicating the polymerization of PVA and TEOS. Open mesopores of the desired silicas or carbons could be fabricated by calcining the hybrids in air and nitrogen, respectively. This route might open a new methodology to synthesize mesoporous materials.

Mesoporous silica and carbon materials have been successfully synthesized via a novel calcination induced phase separation of organic/inorganic hybrids prepared from solvothermal polymerization of polyvinyl alcohol and tetraethyl orthosilicate in dimethyl sulfoxide.Figure optionsDownload high-quality image (74 K)Download as PowerPoint slide