Interaction of CH2OH with silver cation in Ag–A/CH3OH zeolite: A DFT study

“…The spectrum observed in this work at increased temperature can be accounted for by the attachment of the initial radical (CH 3 ) 2 ĊCOOCH 3 , (R), to the vinyl group of MMA forming a secondary radical with the structure RC β H 2 Ċ α (CH 3 )COOCH 3 . EPR spectra of this type of radicals observed in the solid phase with hyperfine splittings a CH3 = 22.2 G to the methyl protons and a β1 = 14.7 G, a β2 = 7.5 G of the methylene group [50] are very similar to that in Figure 4 (b).…”

“…Figure 3 (b) shows the spectrum obtained from this system. It is composed of the ordinary 7-line spectrum due to (CH 3 ) 2 ĊCOOCH 3 and a 6-line structure with a splitting constant of 22 G. The 6-line spectrum is assigned to the radical CDH 2 Ċ(CH 3 )COOCH 3 . The five methyl protons give rise to the sextet, while the hyperfine structure of the added deuterium atom is too small to be resolved.…”

“…zeolites, alumina, aluminosilicalites or higher-order oxides are attractive materials in numerous applications in catalysis. Previous research has shown that those materials play a significant role in the separation and stabilization of various reactive intermediates as atoms, radicals, radical ions, and clusters [1][2][3][4][5][6][7]. Studies of such intermediates are very important for a better understanding of the mechanisms of chemical reactions in polymerization, heterogeneous catalysis, photochemistry, and radiation chemistry and biology.…”

Monomer- and polymer radicals of vinyl compounds: EPR and DFT studies of geometric and electronic structures in the adsorbed state

“…The spectrum observed in this work at increased temperature can be accounted for by the attachment of the initial radical (CH 3 ) 2 ĊCOOCH 3 , (R), to the vinyl group of MMA forming a secondary radical with the structure RC β H 2 Ċ α (CH 3 )COOCH 3 . EPR spectra of this type of radicals observed in the solid phase with hyperfine splittings a CH3 = 22.2 G to the methyl protons and a β1 = 14.7 G, a β2 = 7.5 G of the methylene group [50] are very similar to that in Figure 4 (b).…”

“…Figure 3 (b) shows the spectrum obtained from this system. It is composed of the ordinary 7-line spectrum due to (CH 3 ) 2 ĊCOOCH 3 and a 6-line structure with a splitting constant of 22 G. The 6-line spectrum is assigned to the radical CDH 2 Ċ(CH 3 )COOCH 3 . The five methyl protons give rise to the sextet, while the hyperfine structure of the added deuterium atom is too small to be resolved.…”

“…zeolites, alumina, aluminosilicalites or higher-order oxides are attractive materials in numerous applications in catalysis. Previous research has shown that those materials play a significant role in the separation and stabilization of various reactive intermediates as atoms, radicals, radical ions, and clusters [1][2][3][4][5][6][7]. Studies of such intermediates are very important for a better understanding of the mechanisms of chemical reactions in polymerization, heterogeneous catalysis, photochemistry, and radiation chemistry and biology.…”

Monomer- and polymer radicals of vinyl compounds: EPR and DFT studies of geometric and electronic structures in the adsorbed state

“…It is proposed that these results may provide a deeper understanding of the electronic and catalytic properties of zeolites containing silver atoms and clusters. 157 The formation of radicals by the reaction between CO 2 molecules and an MgO surface precovered with K atoms has been investigated using DFT calculations and EPR. The characteristic 4-line EPR signal from isolated K atoms is lost, and a new paramagnetic species is observed attributed to CO 2 À .…”

Electron spin resonance

“…1). This approach has been proven to give reliable results for the CH 3 -Na + /A or CH 2 OH-Ag + /A systems [21,22]. In order to represent active Lewis sites the 6T and 3T clusters were assumed to contain one and the 6T 0 cluster three AlO À 4 groups.…”

Adsorption of NO in Li-exchanged zeolite A. A density functional theory study