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Chemical Compound Review:

ACMC-1BU3L trimethoxy-methyl-silane

Synonyms: AG-D-40951, Silane A-163, ANW-17143, NSC-93883, NSC93883, ...

Deng, X.M. et al., Giordano, B.C. et al., Soares, C.M. et al., Khummalai, N. et al., Kallos, G.J. et al., et al.

Azenha, Malheiro, Silva, Kato, Gong, Saito, Yokogawa,

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Psychiatry related information on trimethoxy-methyl-silane

Phenyltrimethoxysilane (PTMOS) and methyltrimethoxysilane (MTMOS) were the sol-gel precursors used at different proportions, together with different water contents, catalyst and reaction time [1].

High impact information on trimethoxy-methyl-silane

The ormosil nanoparticles are prepared via a sol-gel-based process, which includes the formation of core particles with phenyltrimethoxysilane as a precursor followed by the formation of a coating layer with methyltrimethoxysilane as a precursor [2].
In this work, we investigated the immobilization of methylene blue in a methyltrimethoxysilane sol-gel ceramic film on a glassy carbon electrode [3].
Fused silica (FS) fibers were coated with PDMS/PVA composite through a sol-gel process, using methyltrimethoxysilane as reticulating agent [4].
Hydrophobic sol-gel films from methyltrimethoxysilane (MTMOS) are deposited onto glass and tin-doped indium oxide (ITO) coated glass substrates [5].
The surface reactions of poly(2-hydroxyethylmethacrylate) (PHEMA) and the copolymer poly(HEMA-methacrylic acid) (PHEMA/MAA) with methyltrimethoxysilane, ethyltrimethoxysilane and phenyltrimethoxysilane have been characterized by attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy [6].

Biological context of trimethoxy-methyl-silane

However, the rates of hydrolysis for methyltrimethoxysilane in water, sodium phosphate buffer at pH 7.4, and 10% rat serum were measured to be 0.03 min-1 (t 1/2 = 24 min), 0.10 min-1 (t 1/2 = 6.7 min), and 0.08 min-1 (t 1/2 = 8.6 min), respectively [7].

Associations of trimethoxy-methyl-silane with other chemical compounds

Hydrolysis rate coefficients of BTMSE, TMOS, MTMS, and BTMSPA are similar in value and are almost one order of magnitude larger than the coefficients of BTMSH and TEOS [8].
Sol-gel lipases prepared with vinyltriethoxysilane had higher hydrolysis activity for 2-octyl acetate than those with other silane precursors: tetramethoxysilane, methyltrimethoxysilane, and propyltrimethoxysilane [9].
Candida rugosa lipase was entrapped in silica sol-gel particles prepared by hydrolysis of methyltrimethoxysilane and assayed by p-nitrophenyl palmitate hydrolysis, as a function of pH and temperature, giving pH optima of 7.8 (free enzyme) and 5.0-8.0 (immobilized enzyme) [10].

Analytical, diagnostic and therapeutic context of trimethoxy-methyl-silane

CEC of explosive mixtures using sol-gels prepared from methyltrimethoxysilane does not perform as well as MEKC in terms of resolving power, but does permit extended injection times for concentrating analyte onto the head of the separation column with little or no subsequent loss in resolution [11].
The Si-O-Si spectrum by Fourier transform infrared (FTIR) distinctly found for the MTMOS film is considered to indicate the formation of the networks of the film, and the Fe-O-Si spectrum confirmed the bonding of the film to the arsenopyrite surface [12].

References

Ultrathin phenyl-functionalized solid phase microextraction fiber coating developed by sol-gel deposition. Azenha, M., Malheiro, C., Silva, A.F. Journal of chromatography. A. (2005) [Pubmed]
Real-time measurements of dissolved oxygen inside live cells by organically modified silicate fluorescent nanosensors. Koo, Y.E., Cao, Y., Kopelman, R., Koo, S.M., Brasuel, M., Philbert, M.A. Anal. Chem. (2004) [Pubmed]
Studies of sol-gel ceramic film incorporating methylene blue on glassy carbon: an electrocatalytic system for the simultaneous determination of ascorbic and uric acids. Khoo, S.B., Chen, F. Anal. Chem. (2002) [Pubmed]
Preparation and characterization of polydimethylsiloxane/poly(vinylalcohol) coated solid phase microextraction fibers using sol-gel technology. Lopes, A.L., Augusto, F. Journal of chromatography. A. (2004) [Pubmed]
Hydrophobic silica sol-gel films for biphasic electrodes and porotrodes. McKenzie, K.J., Niedziolka, J., Paddon, C.A., Marken, F., Rozniecka, E., Opallo, M. The Analyst. (2004) [Pubmed]
Surface modification of soft contact lenses: silanization, wettability and lysozyme adsorption studies. Deng, X.M., Castillo, E.J., Anderson, J.M. Biomaterials (1986) [Pubmed]
Stability studies of alkoxysilanes in aqueous media. Kallos, G.J., Tou, J.C., Malczewski, R.M., Boley, W.F. American Industrial Hygiene Association journal. (1991) [Pubmed]
Study of the effects of progressive changes in alkoxysilane structure on sol-gel reactivity. Tan, B., Rankin, S.E. The journal of physical chemistry. B, Condensed matter, materials, surfaces, interfaces & biophysical (2006) [Pubmed]
Preparation and catalytic performance of lipases encapsulated in sol-gel materials. Kato, K., Gong, Y., Saito, T., Yokogawa, Y. Biosci. Biotechnol. Biochem. (2002) [Pubmed]
Characterization of sol-gel bioencapsulates for ester hydrolysis and synthesis. Soares, C.M., de Castro, H.F., Itako, J.E., de Moraes, F.F., Zanin, G.M. Appl. Biochem. Biotechnol. (2005) [Pubmed]
Micellar electrokinetic chromatography and capillary electrochromatography of nitroaromatic explosives in seawater. Giordano, B.C., Copper, C.L., Collins, G.E. Electrophoresis (2006) [Pubmed]
Suppression of arsenopyrite surface oxidation by sol-gel coatings. Khummalai, N., Boonamnuayvitaya, V. J. Biosci. Bioeng. (2005) [Pubmed]

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