observations of self assembled bolaform amphiphiles on cellulose
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2007 International Conference on Nanotechnology for the Forest Products Industry. Observations of Self Assembled Bolaform Amphiphiles on Cellulose. Sunkyu Park 1 , Joseph J. Bozell 1 , Josef Oberwinkler 2 June 14, 2007 1 Forest Products Center, University of Tennessee - PowerPoint PPT PresentationTRANSCRIPT
Observations of Self Assembled
Bolaform Amphiphiles on
Cellulose
Sunkyu Park 1, Joseph J. Bozell 1, Josef Oberwinkler 2
June 14, 20071 Forest Products Center, University of Tennessee
2 Salzburg University of Applied Sciences, Salzburg, Austria
2007 International Conference
on Nanotechnology for the Forest Products Industry
2
3 Summary
2 Interaction Between Cellulose and Bolaforms
1What are Bolaform Amphiphiles?
1. Interaction on Cellulose
Surface
2. Interaction with Cellulose
Matrix
Presentation Contents
3
What are Bolaform What are Bolaform
Amphiphiles?Amphiphiles?
4
Bolaform Amphiphiles
Figure from Fuhrhop and Wang, Chem. Rev. 2004, 104, 2901-2937
5
Bolaforms as Self Assembling Systems
Figures from T. Shimizu, Macromol. Rapid Commun. 2002, 23, 311
6
Ferrier Bolaform Synthesis
Final product
7
Other Types of Bolaform Amphiphiles
8
Materials Used in this Study
Symmetric and C12 Bolaform Amphiphiles
Cellulose
9
Cellulose and Bolaform Cellulose and Bolaform AmphiphilesAmphiphiles
(1) Interaction (1) Interaction onon Cellulose Cellulose SurfaceSurface
10
• Materials– Cellulose: Microcrystalline cellulose (Avicel)
• Pretreatments– MeOH exchange ×3– DMAc exchange ×3
– Solvent• 8% LiCl in DMAc (N,N-dimethylacetamide)
– Solution• Cellulose + Bolaforms + LiCl/DMAc
• Methods– A drop on glass-slide– Drying– Polarized optical microscope
xx
Materials and Methods
11
Cellulose Film in Absence of Bolaforms
200µm
Cellulose film without bolaforms in LiCl/N,N-dimethylacetamide
12
Individualstructures
Bolaform Crystallization in Absence of Cellulose
200µm
Bolaforms without cellulosein LiCl/N,N-
dimethylacetamide
50µm
200µm 200µm
13
Bolaform Crystallization in Presence of Cellulose
200µm
Edge of drop
Bolaforms with cellulosein LiCl/N,N-
dimethylacetamide
200µm
14
Bolaform Crystallization Process
15
200µm
200µm 200µm
200µm
Different Crystal Structures
200µm
200µm
Without cellulose
16
FT-IR Imaging Characterization (1)
Image scanning
4000~650 cm-1 Image map at 2918 cm-1
17
FT-IR Imaging Characterization (2)
Multivariate analysis of cellulose-bolaforms pellets using statistics package
(Unscrambler)
18
Bolaform concentration mapping
FT-IR Imaging Characterization (3)
19
MeOH Washing
• MeOH washing– All bolaform crystals were immediately dissolved in
MeOH
20
Cellulose Film in Absence of Bolaforms
Solution:
Dissolved cellulose, LiCl/DMAc
Gel-type cellulose pad:
Cellulose pad, LiCl/ some DMAc, H2O
Formation mechanism
• Evaporation of DMAc
• Solidification of dissolved cellulose by H2O
21
Cellulose Film in Presence of Bolaforms
Formation mechanism
• Evaporation of DMAc
• Solidification of dissolved cellulose by H2O
• Individual bolaform crystal formation
• Deposition of individual bolaform crystals
(cellulose is acting as nucleating sites)
Solution:
Dissolved cellulose, LiCl/DMAc, Dissolved bolaforms
Gel-type cellulose pad:
Cellulose pad, LiCl/ some DMAc, H2O, Bolaform crystals
22
Cellulose as a Template for Assembly
Kondo et al, PNAS 2002, 99, 14008Kondo, 2007, Chap. 16 in Cellulose: Molecular and Structural Biology
23
200µm
200µm 200µm
200µm
Different Crystal Structures
200µm
200µm
Without cellulose
24
Control of Bolaform Crystallization
Formation mechanism
• Evaporation of DMAc
• Solidification of dissolved cellulose by H2O
• Individual bolaform crystal formation
• Deposition of individual bolaform crystals
Morphology of bolaform crystals in solvent
Template conditions of cellulose gel
Air flow
Cellulose concentration
Bolaforms concentration
Relative humidity
Temperature… more
25
MeOH Washing
(2) 0 min, 1st drop(1) 0 min (3) 15 min, 2nd drop
(4) 30min, 3rd drop
200µm
(5) 45 min, 4th drop
(6) 60 min, 5th drop
26
(7) 75min, 6th drop (8) 90 min, 7th drop
(9) After 95 min
90 min, before 7th drop
Bolaform Re-crystallization
27
Cellulose and Bolaform Cellulose and Bolaform AmphiphilesAmphiphiles
(2) Interaction (2) Interaction withwith Cellulose Cellulose MatrixMatrix
28
• Materials– Cellulose: Microcrystalline cellulose (Avicel)
• Pretreatments– MeOH exchange ×3– DMAc exchange ×3
– Solvent• 8% LiCl in DMAc (N,N-dimethylacetamide)
– Solution• Cellulose + Bolaforms + LiCl/DMAc
• Methods– Slow casting in Petri-dish– Washing with H2O– Drying at 60°C (restrained drying)– AFM, SEM, NMR, Sorption test
Materials and Methods
29
Cellulose-bolaform Film Preparation (1)
30
Cellulose-bolaform Film Preparation (2)
31
FT-IR: Multivariate Analysis
Multivariate analysis of bolaform-incorporated cellulose films
32
Film Surface: (1) AFM Images
Cellulose in DMAc/LiCl Bolaform/ Cellulose in DMAc/LiCl
33
Film Surface: (2) SEM Images
Cellulose Film Cellulose-Bolaform Film
34
Wide Angle X-ray Diffraction
X-ray source: CuKα (0.1542nm)
45kV and 0.66mA
Beam time: 30min
35
(110)/(020)
(103)(004)
(110)¯
Avicel
0% Bolaform Film
Bolaform powder
Diffraction Patterns for Powders/ Films
5% Bolaform Film
15% Bolaform Film
36
1D Integrated WAXD Profiles
Bolaform powder
Avicel powder
Amorphous cellulose powder
Cellulose film(bolaforms 0%)
Cellulose film(bolaforms 5%)
Cellulose film(bolaforms 15%)
5 10 15 20 25 30 35 40
2 theta, degree
37
Structural Information for Cellulose Films
• Crystallinity index, CI
• Crystal size, L
cos
kL
,%( )
Area of crystalline peaksCI
Area of crystalline amorphous peaks
k: Scherrer constant, 0.94
λ: x-ray wavelength
β: full-width at half-maximum
θ: Bragg angle
38
Bolaformconcentration,
%
Crystallinity
index, %
Crystal size,nm
R2 a) F b)
0% 35.5 2.36 0.9975 7038
1% 37.9 2.24 0.9982 8683
3% 36.7 2.24 0.9958 3587
5% 37.9 2.18 0.9943 2597
15% 39.1 2.18 0.9955 2303
Structural Information: Crystallinity, Crystal Size
a) and b) are regression coefficients during the curve fitting procedure
39
Low Resolution NMR
• Experimental Parameters– CPMG procedures
– τau 0.05 ms
– 256 echoes– 750 scans– 5 second recycle delay
40
NMR Relaxation Time
1.0
1.2
1.4
1.6
1.8
Cellulose 2%,Bolaform 0%
Cellulose 2%,Bolaform 5%
Cellulose 4%,Bolaform 0%
Cellulose 4%,Bolaform 5%
Rel
axat
ion
Tim
e, T
2 in
ms
41
SummarySummary
42
Summary
• Bolaform amphiphiles were successfully synthesized and the interactions with cellulose were studies.
• Highly-ordered self assembly of bolaform amphiphiles were observed on cellulose template, while individual self-assembled structures were found in the absence of cellulose.
• Bolaform-incorporated cellulose film showed higher relaxation time, which might be attributed to the interaction between cellulose hydroxyl groups and bolaform molecules.
43
• Thomas Elder– USDA-Forest Service– Southern Research Station– Pineville, LA
• Nicole Labbé– Forest Products Center– The University of Tennessee
• John R. Dunlap– Program in Microscopy– The University of Tennessee
Acknowledgements
