Detail publikačního výsledku
Structure analysis of montmorillonite intercalated with rhodamine B: modeling and experiment.
POSPÍŠIL,, M., CAPKOVÁ, P., WEISSMANNOVÁ, H., KLIKA, Z., TRCHOVÁ, M., CHMIELOVÁ, M., WEISS, Z.
Originální název
Structure analysis of montmorillonite intercalated with rhodamine B: modeling and experiment.
Anglický název
Structure analysis of montmorillonite intercalated with rhodamine B: modeling and experiment.
Druh
Článek recenzovaný mimo WoS a Scopus
Originální abstrakt
The intercalation process and the structure of montmorillonite intercalated with [rhodamine B]+ cations have been investigated using molecular modeling (molecular mechanics and molecular dynamics simulations), X-ray powder diffraction and IR spectroscopy. The structure of the intercalate depends strongly on the concentration of rhodamine B in the intercalation solution. The presence of two phases in the intercalated structure was revealed by modeling and X-ray powder diffraction: (i) phase with basal spacing 18 A and with bilayer arrangement of guests and (ii) phase with average basal spacing 23 A and with monolayer arrangement of guests. In both phases the monomeric and dimeric arrangement can coexist in the interlayer space. Three types of dimers in the interlayer structure have been found by modeling: (i) H-dimer (head-to-head arrangement) present in the 18 A phase, (ii) sandwich type of the head-to-tail arrangement (present in the 23 A phase) and (iii) J-dimer (head-to-tail arrangement) present in the 23 A phase. Figure Montmorillonite intercalated with rhodamine B cations. On the left: phase 18 A, bilayer dimeric arrangement of guests (H-dimers). On the right: phase 23 A, monolayer arrangement of guests prepared using intercalation solution with a low concentration of rhodamine B
Anglický abstrakt
The intercalation process and the structure of montmorillonite intercalated with [rhodamine B]+ cations have been investigated using molecular modeling (molecular mechanics and molecular dynamics simulations), X-ray powder diffraction and IR spectroscopy. The structure of the intercalate depends strongly on the concentration of rhodamine B in the intercalation solution. The presence of two phases in the intercalated structure was revealed by modeling and X-ray powder diffraction: (i) phase with basal spacing 18 A and with bilayer arrangement of guests and (ii) phase with average basal spacing 23 A and with monolayer arrangement of guests. In both phases the monomeric and dimeric arrangement can coexist in the interlayer space. Three types of dimers in the interlayer structure have been found by modeling: (i) H-dimer (head-to-head arrangement) present in the 18 A phase, (ii) sandwich type of the head-to-tail arrangement (present in the 23 A phase) and (iii) J-dimer (head-to-tail arrangement) present in the 23 A phase. Figure Montmorillonite intercalated with rhodamine B cations. On the left: phase 18 A, bilayer dimeric arrangement of guests (H-dimers). On the right: phase 23 A, monolayer arrangement of guests prepared using intercalation solution with a low concentration of rhodamine B
Klíčová slova
montmorillonite, intercalation, rhodamine B, interlayer
Klíčová slova v angličtině
montmorillonite, intercalation, rhodamine B, interlayer
Autoři
POSPÍŠIL,, M., CAPKOVÁ, P., WEISSMANNOVÁ, H., KLIKA, Z., TRCHOVÁ, M., CHMIELOVÁ, M., WEISS, Z.
Rok RIV
2010
Vydáno
14.01.2003
Nakladatel
Elsevier
Místo
Elsevier
ISSN
0948-5023
Periodikum
JOURNAL OF MOLECULAR MODELING
Svazek
9
Číslo
1
Stát
Spolková republika Německo
Strany od
39
Strany do
46
Strany počet
7
BibTex
@article{BUT46608,
author="Pavla {Čapková} and Helena {Doležalová Weissmannová}",
title="Structure analysis of montmorillonite intercalated with rhodamine B: modeling and experiment.",
journal="JOURNAL OF MOLECULAR MODELING",
year="2003",
volume="9",
number="1",
pages="39--46",
issn="1610-2940"
}