Silica gel and MCM-41 synthesized mesoporous materials were treated with either oxygen(O_2),hexamethyldisiloxane(HMDSO) and organic vapors like ethanol(Et OH),and acrylonitrile(AN)inductive plasma.The radiofre...Silica gel and MCM-41 synthesized mesoporous materials were treated with either oxygen(O_2),hexamethyldisiloxane(HMDSO) and organic vapors like ethanol(Et OH),and acrylonitrile(AN)inductive plasma.The radiofrequency power for the modification was fixed to 120 W and30 min,assuring a high degree of organic ionization energy in the plasma.The surface properties were studied by infrared spectroscopy(FTIR),scanning electron microscopy,x-ray photoelectron spectroscopy and dynamic light scattering technique was used for characterizing size distributions.When the silica and MCM-41 particles were modified by AN and HMDSO plasma gases,the surface morphology of the particles was changed,presenting another color,size or shape.In contrast,the treatments of oxygen and Et OH did not affect the surface morphology of both particles,but increased the oxygen content at the surface bigger than the AN and HMDSO plasma treatments.In this study,we investigated the influence of different plasma treatments on changes in morphology and the chemical composition of the modified particles which render them a possible new adsorbent for utilization in sorptive extraction techniques for polar compounds.展开更多
A convenient and economic method for preparing highly ordered MCM 41 was studied in an open vessel by using waterglass as the silicon source. XRD, nitrogen adsorption and TEM show that the product has a highly ordered...A convenient and economic method for preparing highly ordered MCM 41 was studied in an open vessel by using waterglass as the silicon source. XRD, nitrogen adsorption and TEM show that the product has a highly ordered structure and the hexagonal arrangements of uniformly size pores distribution.展开更多
It was proved by ICP, fluorescence spectra and N 2 adsorption that the rare earth complex [C 5H 5NC 16H 33] [Eu(TTA) 4] is in the channel of Si-MCM-41 in the course of assembly. The rare earth complex of 67.9% is in t...It was proved by ICP, fluorescence spectra and N 2 adsorption that the rare earth complex [C 5H 5NC 16H 33] [Eu(TTA) 4] is in the channel of Si-MCM-41 in the course of assembly. The rare earth complex of 67.9% is in the channel, suggesting that the assembly of the complex molecular on the mesoporous MCM-41 was carried out mainly in the channel.展开更多
基金supported by CONACYT Ciencia Básica project 176544SEM and XPS measurements were performed at LANNBIO Cinvestav Mérida,under support from projects FOMIX-Yucatán 2008-108160,CONACYT LAB2009-01 No.123913
文摘Silica gel and MCM-41 synthesized mesoporous materials were treated with either oxygen(O_2),hexamethyldisiloxane(HMDSO) and organic vapors like ethanol(Et OH),and acrylonitrile(AN)inductive plasma.The radiofrequency power for the modification was fixed to 120 W and30 min,assuring a high degree of organic ionization energy in the plasma.The surface properties were studied by infrared spectroscopy(FTIR),scanning electron microscopy,x-ray photoelectron spectroscopy and dynamic light scattering technique was used for characterizing size distributions.When the silica and MCM-41 particles were modified by AN and HMDSO plasma gases,the surface morphology of the particles was changed,presenting another color,size or shape.In contrast,the treatments of oxygen and Et OH did not affect the surface morphology of both particles,but increased the oxygen content at the surface bigger than the AN and HMDSO plasma treatments.In this study,we investigated the influence of different plasma treatments on changes in morphology and the chemical composition of the modified particles which render them a possible new adsorbent for utilization in sorptive extraction techniques for polar compounds.
文摘A convenient and economic method for preparing highly ordered MCM 41 was studied in an open vessel by using waterglass as the silicon source. XRD, nitrogen adsorption and TEM show that the product has a highly ordered structure and the hexagonal arrangements of uniformly size pores distribution.
文摘It was proved by ICP, fluorescence spectra and N 2 adsorption that the rare earth complex [C 5H 5NC 16H 33] [Eu(TTA) 4] is in the channel of Si-MCM-41 in the course of assembly. The rare earth complex of 67.9% is in the channel, suggesting that the assembly of the complex molecular on the mesoporous MCM-41 was carried out mainly in the channel.