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![Page 1: Confining Liquid Crystals to Nanoporous Molecular Sieves by Ligia Frunza NIMP, Bucharest - Magurele Bucharest, January 27 2004 National Institute of Materials.](https://reader036.fdocuments.us/reader036/viewer/2022070305/55149819550346b2598b56a8/html5/thumbnails/1.jpg)
Confining Liquid Crystals to Nanoporous Molecular Sieves
by
Ligia Frunza
NIMP, Bucharest - Magurele
Bucharest, January 27 2004
National Institute of Materials PhysicsBucharest-Magurele
Romania
L. Frunza
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Outline
L. Frunza
•Introductionconfining effects aim of the investigations
•Experimentalmaterials (molecular sieves & confining organics)methods of investigation
•Results : dielectric spectroscopyDSC, DTA, TGFTIRoptical microscopy/CCV
•Co-operations: bilateral FP6
resources to collaborate
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•Introduction
L. Frunza
Confining effects
Source of confining effects:
size restrictionpolydispersityconnectivity confining topology
+surface effects
Changes of confined material:
physical properties
chemical properties
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•IntroductionAim of the investigations
L. Frunza
Molecular sieves Nanoporous materials offering arrays of pores and cavities with known geometry
Substitution in their framework may lead to a variety of guest- host interactions
New structures are continuously synthesized
•Confined matter: liquid crystals different other organics
•Studies aimed to investigateinfluence of the confinement on
phase transitions (LC behavior)thermal stabilization
anchoring mode of the molecules at the surface of the molecular sieveslocation of the organic molecules in the loaded samples
inside the pores and/or cavitieson the outer surface of the grains / agglomerates
•Potential applications of composites based on molecular sievesmicrolasers, sensors, biology (by functionalization), catalysts…
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•ExperimentalMolecular sieves. AlMCM-41, AlSBA-15, SiNMS-F
L. Frunza
Synthesis: NIMP(INCDFM)partners
AlSBA-158.5 nm size
AlMCM-412 nm size
hexagonal structure
AlSBA-158.5 nm size
AlMCM-412 nm size
hexagonal structure
SiNMS-F17.2 nm size
cellular structure
SiNMS-F17.2 nm size
cellular structure
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•ExperimentalConfined matter
L. Frunza
Thermotropic Liquid Crystals
8CB4-n-octyl-4'-cyano-biphenyl
C - SA = 295 K / S - N = 306.5 K N - I = 313.5 K
Thermotropic Liquid Crystals
8CB4-n-octyl-4'-cyano-biphenyl
C - SA = 295 K / S - N = 306.5 K N - I = 313.5 K
L y o t r o p i c L i q u i d C r y s t a l s
S D S( S o d i u m d o d e c y l s u l p h a t e )
S D S / w a t e r / d e c a n o ln e m a t i c c a l a m i t i c
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 3
O S O - Na +
O
O
Hydrophilic headHydrophobic chain
L y o t r o p i c L i q u i d C r y s t a l s
S D S( S o d i u m d o d e c y l s u l p h a t e )
S D S / w a t e r / d e c a n o ln e m a t i c c a l a m i t i c
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 2
CH 3
O S O - Na +
O
O
Hydrophilic headHydrophobic chain
Organic complexes
Jacobsen complex
enantioselective catalyst homogeneous catalysisheterogenization
Organic complexes
Jacobsen complex
enantioselective catalyst homogeneous catalysisheterogenization
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•ExperimentalInvestigation methods
L. Frunza
IR & UV-vis spectroscopy in situBroadband dielectric spectroscopy (partners)Thermal analysis (partners)
differential thermal analysis (DTA)differential scanning calorimetry (DSC)
Optical microscopy /CCV camera Luminescence / thermoluminescence Others
thermogravimetry (partners)X-ray diffractionelectron microscopynitrogen absorption meas. (partners)
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•Results Confinement of liquid crystals
L. Frunza
6.57.0
7.58.0
8.520
40
6080
-1.5
-1.0
-0.5
0.0
0.5
log
''
293
313
333
3D plot of dielectric loss
6.57.0
7.58.0
8.520
40
6080
-1.5
-1.0
-0.5
0.0
0.5
log
''
293
313
333
3D plot of dielectric loss
2 .6 2 .8 3 .0 3 .2 3 .4 3 .6
6
7
8
9
CSA
NI
log
(f p
[H
z])
1 0 0 0 K / T
R elaxa tio n ra tes vs . 1 /T
2 .6 2 .8 3 .0 3 .2 3 .4 3 .6
6
7
8
9
CSA
NI
log
(f p
[H
z])
1 0 0 0 K / T
R elaxa tio n ra tes vs . 1 /T
Bulk 8CB
A.Schoenhals, H.-L.Zubowa, R.Fricke, S.Frunza, L.Frunza, R.Moldovan, Cryst. Res. Technol. 34, 1309 (1999)
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•ResultsConfinement of liquid crystals
L. Frunza
Empty molecular sieves
02
46
220240
260280
300320
-3
-2
-1
SiNMS-F(B)
log ''
T [K
]log (f[Hz))
L. Frunza, S. Frunza, A. Schönhals, et al., J. Non-cryst. Solids, 307-310 (2002) 503. L. Frunza, H. Kosslick, A. Schönhals, et al. , Proceedings SPIE-4799 (2002) 230.L. Frunza, S. Frunza, A. Schönhals, et al., Stud. Surf. Sci. Catal. 142 (2002) 1323. L. Frunza, H. Kosslick, S. Frunza, et al J. Phys. Chem B. 106 (2002) 9191.
3.0 3.5 4.0 4.5 5.0
-3
-2
-1
0
1
2
AlSBA-15 NMS-F
log([s
])
1000/(T[K])
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•Results Confinement of liquid crystals
L. Frunza
•Two relaxation processes may appear.
•The slow relaxation process is a new one, due to surface layer. Its temperature dependence follows a VFT law.
1
2
3
T = 360 K1) Bulk 8CB2) 8CB(A)/AlMCM-413) 8CB(B)/AlMCM-41
Loaded molecular sieves
S.Frunza, A.Schönhals, L.Frunza, et al., Chem.Phys. Lett.307 (1999) 167.S. Frunza, L. Frunza, A. Schönhals, J. Phys. IV France, 10 (2000) , Pr7-115.S. Frunza, L. Frunza, M. Tintaru, et al., Liq. Cryst. Accepted Jan. 2004
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L. Frunza
•Results Thermal analysis
400 600 800 1000
(B)
Wei
gth
loss
deriv
ativ
e
Temperature/ K
•DTA curves: several endothermal and exothermal processes (oxidation/decomposition)
•DTA curve do not have the same shape as the corresponding DTG curvethermal process involving surface species
400 600 800 1000
(A)
8CB/AlSBA-15 8CB/SiSBA-F 8CB bulk
He
at
flow
, a
.u.
Temperature/ K
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L. Frunza
•Results DSC
•Partially filled samples with low filling degree do not show phase transitions
•Completely filled samples:A part of confined 8CB shows phase transitions
•Downward shift of te peak temperature
•C-SA phase transition has the
biggest shift•correlation between the depression of the crystallization temperature and the reciprocal diameter of the pores cannot be established
Most of the confined 8CB does not show any phase transitions
280 300 320 340
8CB bulk 8CB/SiSBA-F 8CB/AlSBA-15
Spe
cific
hea
t cap
acity
/JK
-1kg
-1
Temperature /K
295 300 305
S. Frunza, L. Frunza, A. Schönhals, et al., Europhys. Lett. 56 (2001) 801. L. Frunza, S. Frunza, A. Schönhals, et al., Stud. Surf. Sci. Catal. 142 (2002) 1323. S. Frunza, H. Kosslick, A. Schönhals, et al., J. Noncryst. Solids 325 (2003) 103.
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L. Frunza
•Results In situ FTIR spectroscopy
2200 2225 2250
(A)
623 K 598 K 573 K 548 K 523 K 498 K 473 K 448 K 423 K 398 K 373 K 323 K 298 K
Wavenumbers /cm-1
8CB/AlSBA-15
CN vibration is described as a vibration of a localized group
Species: Bulk-like LC (2226 cm-1) Randomized state (ca. 2230 m-1) Hydrogen bonded (2241 cm 1)
L. Frunza, S. Frunza, A. Schönhals, et al., J.Molec. Struct. 563-564, 491-495 (2001).L. Frunza, H. Kosslick , U. Bentrup, et al., J. Molec. Str. 651-653 (2003) 341-347.L. Frunza, S. Frunza, I. Enache, et al., Mol. Cryst. Liq. Cryst. Accepted September 2003.
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L. Frunza
•Results Confinement of Jacobsen complex
1500 2000 2500 3000 3500 4000
4
2
0
T
Tra
nsm
issi
on
Wavenumbers (cm -1)
J/AlMCM-41
0 100 200 300 400 500
0.25
0.50
0.75
Abs
orba
nce
Temperature /oC
1605 cm -1
1643 cm -1
1873 cm -1
1995 cm -1
J/AlMCM-41
L. Frunza, H. Kosslick , H. Landmesser, et al., J.Mol.Catal.123, 179-187 (1997)L. Frunza, I. Enache, I. Nicolaie, et al., BPU-5, Serbia, August 2003.L. Frunza, I. Nicolaie, S. Frunza, et al., ICC, Paris, France , July 2004.
Water amount drcreases by increasing temperature.Jacobsen complex anchoring to the surface is an activated process.
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T. Beica, R. Moldovan, M.R. Puica, S. Frunza, Liq. Cryst. 29 (2002) 1275.T. Beica, R. Moldovan, Irina Zgura, et al., BPU5, August 25-29, 2003, SerbiaT. Beica, R. Moldovan, M. Tintaru, et al., Liq. Cryst. Accepted Dec. 2003
•Results Lyotropic liquid crystals
Confinement is constructed during synthesis of nanopores
Some results on studies concerning lyotropic micelles are given in a Poster of T. Beica, R. Moldovan, M. Tintaru I. Zgura, S. Frunza
L. Frunza
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L. Frunza
•Co-operationsBilateral scientific agreements:
Germany, Berlin ACAHendrik Kosslick Rolf FrickeUrsula Bentrup Irene PitschH.-L. Zubowa
BAM Andreas Schoenhals
COORDINATION ACTION “CONCORDE - Co-ordination of Nanostructured Catalytic Oxides
Research and Development in Europe ”
Framework Programme FP6 Priority 3 Nanotechnology and nanosciences, knowledge-based multifunctional
materials, new production processes and devices
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L. Frunza
•AcknowledgementsTeam of Liquid Crystals and Surface Interactions (NIMP):
Stefan FrunzaLigia FrunzaTraian BeicaMihaela TintaruIrina Zgura Irina NicolaieRodica Moldovan
Organizers of the National Seminar of Nanoscience and Nanotechnology Bucharest 2004