Sol-Gel Incorporation of Organometallic Compounds into Silica: Useful Precursors to Metallic Nanostructured Materials. Diaz, C., Valenzuela, M., Garrido, D., & Aguirre, P. Journal of the Chilean Chemical Society, 57(2):1155-1162, 2012.
Sol-Gel Incorporation of Organometallic Compounds into Silica: Useful Precursors to Metallic Nanostructured Materials [link]Paper  abstract   bibtex   
Inclusion of the organometallic MLn = [HOC5H4N center dot Cp2TiCl][PF6] (I), HOC5H4N center dot W(CO)(5) (2), HOC5H4N center dot Mo(CO)(5) (3), [HOC6H4CH2CN center dot Cp2TiCl][PF6] (4), HOC6H4CH2CN center dot W(CO)(5) (5) and HOC6H4CH2CN center dot Mo(CO)(5) (6) into amorphous silica using the gelator precursor TEOS and N3P3N-H[CH2](3)Si[OEt](3)(6) afford the gels (MLn)(SiO2)(n). The inorganic-organic hybrid nanocomposites were pyrolyzed under air at 800 degrees C to give nanostructured metal oxides and/or metal pyrophosphates (phosphates) included in the silica matrices. The morphology of the monolithic nanocomposites exhibited a strong dependence on the gel precursor used being mainly laminar for those prepared using N2P3NH[CH2](3)Si[OEt](3) as gelator. TEm images show different shape and size such as circular nanoparticles, nanocables and agglomerates in some cases with sizes of 20 nm for the circular nanostructures, and diameter about 25 nm for the nanocables.
@article{RN87,
  abstract = {Inclusion of the organometallic MLn = [HOC5H4N center dot Cp2TiCl][PF6] (I), HOC5H4N center dot W(CO)(5) (2), HOC5H4N center dot Mo(CO)(5) (3), [HOC6H4CH2CN center dot Cp2TiCl][PF6] (4), HOC6H4CH2CN center dot W(CO)(5) (5) and HOC6H4CH2CN center dot Mo(CO)(5) (6) into amorphous silica using the gelator precursor TEOS and N3P3{N-H[CH2](3)Si[OEt](3)}(6) afford the gels (MLn)(SiO2)(n). The inorganic-organic hybrid nanocomposites were pyrolyzed under air at 800 degrees C to give nanostructured metal oxides and/or metal pyrophosphates (phosphates) included in the silica matrices. The morphology of the monolithic nanocomposites exhibited a strong dependence on the gel precursor used being mainly laminar for those prepared using N2P3{NH[CH2](3)Si[OEt](3)} as gelator. TEm images show different shape and size such as circular nanoparticles, nanocables and agglomerates in some cases with sizes of 20 nm for the circular nanostructures, and diameter about 25 nm for the nanocables.},
  added-at = {2019-12-04T03:57:35.000+0100},
  author = {Diaz, C. and Valenzuela, M.L. and Garrido, D. and Aguirre, P.},
  biburl = {https://www.bibsonomy.org/bibtex/2390aeaaa290778f54e2b7ef46baacf85/dqcauchile},
  interhash = {57a83183e9d1a7db6e28d5898942f0b8},
  intrahash = {390aeaaa290778f54e2b7ef46baacf85},
  issn = {0717-9707},
  journal = {Journal of the Chilean Chemical Society},
  keywords = {polysilsesquioxanes, thermolytic molecular silica, nanocomposites, nanostructured, sol-gel, source nanowires, matrix, magnetic-properties, precursors, materials, dqcauchile nanoclusters pyrophosphates, nanoparticles, organic-inorganic bridged mesoporous transformation,},
  number = 2,
  pages = {1155-1162},
  timestamp = {2019-12-04T03:58:17.000+0100},
  title = {Sol-Gel Incorporation of Organometallic Compounds into Silica: Useful Precursors to Metallic Nanostructured Materials},
  type = {Journal Article},
  url = {/brokenurl#<Go to ISI>://WOS:000305169800021},
  volume = 57,
  year = 2012
}
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