Morphological Design of Highly Porous Nanocellulose Structures · - Rettenmaier & Söhne GmbH (JRS)...
Transcript of Morphological Design of Highly Porous Nanocellulose Structures · - Rettenmaier & Söhne GmbH (JRS)...
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Morphological Design of Highly Porous Nanocellulose Structures
Jenni Sievänen Hans-Peter Hentze Tuomo Hjelt
7/14/2009Keskuslaboratorio Oy
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Agenda
1) Introduction – NFC Aerogels
2) Morphology Control by Cryoprotectants
3) Morphology Control by Hydrophobization
4) Summary & Outlook
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1) Introduction – NFC Aerogels
Nanocellulose (Nanofibrillated Cellulose = NFC)
Nanocelluloses are cellulose fibers characterized by
- diameter in the nm-range (~100 nm)- high aspect ratio (length ~10s μm)- high specific surface area- high mechanical strength
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NFC & wood fiber
10 μm
NFC 100-5 (Rettenmaier & Söhne)Ground wood-fibersd ~ 100 nm l ~ 10s microns
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Introduction – NFC Aerogels
Materials made from nanocelluloses
Pure nanocelluloses can be assembled into different types of new cellulosic materials, e.g.:
NFC Aerogels: Nanocellulose-based porous solids,which combine high porosity & high mechanical stability
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Dense & transparent films
Porous & opaque films
Porous bulk materials
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Introduction – NFC Aerogels
Preparation of NFC aerogels
A) Preparation of a homogeneous NFC suspensionB) Freezing of the suspensionC) Sublimation of the water by freeze-drying
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A: B: C:
Liquid NFC suspension
Frozen NFC suspension
NFC aerogel
AB
C
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Introduction – NFC Aerogels
The morphology of NFC aerogels
- Open pore structure- High mechanical stability- High surface areas
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X-ray microtomography:
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Introduction – NFC Aerogels
Motivation & Hypotheses
• The mechanical properties of NFC aerogels aredetermined by the pore structure
• The pore structure of NFC aerogels prepared by freeze-drying is controlled by ice crystal formation
• The morphological and mechanical properties of NFC aerogels can be adjusted by:
- Control of ice crystal formation by use of cryoprotectants (→ homogenity of the pore morphology)
- NFC hydrophobization (→ screening fiber-fiber interaction)
- NFC concentration of the suspension (→ overall porosity)
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2) Morphology Control by Cryoprotectants
Cryoprotectants – A biomimetic approach
Cryoprotectants suppress ice crystal growthand enable the vitrification of water (amorphous ice)
An example from nature – The arctic wood frog
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Glucose as a natural cryoprotectant
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Morphology Control by Cryoprotectants
Glucose as a cryoprotectant additive:Homogenity of the NFC aerogel morphology
NFC aerogels with and without cryoprotectant
→ Cryoprotectants enable a homogenous pore morphology
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Morphology Control by Cryoprotectants
Glucose as a cryoprotectant additive:Homogenity of the NFC aerogel morphology
Examples of sample compositions:
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Sample c (NFC) c (glucose) porosity
JNF44 3wt% - 98.0%
JNF45 3wt% 0.15wt% 97.9%
JNF43 5wt% 0.25wt% 96.5%
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Morphology Control by Cryoprotectants
Comparison of microstructure:
Addition of glucose (JNF44: 0wt%, JNF 45: 0.15wt%)c(NFC)=3wt%
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100 μm100 μm
JNF 44 JNF 45
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Morphology Control by Cryoprotectants
Comparison of microstructure:
Addition of glucose (JNF44: 0wt%, JNF 45: 0.15wt%)c(NFC)=3wt%
→ No change in microstructure: Sheet-like morphology
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10 μm
JNF 44 JNF 45
10 μm
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Morphology Control by Cryoprotectants
Comparison of mechanical properties:
Addition of glucose (JNF44: 0wt%, JNF 45: 0.15wt%)
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→ Increase in mechanical strength, E-modulus (10% strain): 40 kPa (JNF44) → 69 kPa (JNF45)
c (NFC)=3wt%
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Morphology Control by Cryoprotectants
Comparison of mechanical properties:
Effect of increasing NFC concentration (JNF43: 5wt%, JNF45: 3wt%)
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→ Increase in mechanical strength, E-modulus (10% strain): 69 kPa (JNF45) → 173 kPa (JNF43)
c(glucose)/c(NFC)=0.05
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3) Morphology Control by Hydrophobization
NFC Hydrophobization
Sizing agents are commonly used in papermakingfor hydrophobization of cellulose wood-fibers, e.g.
Alkenyl-succinic anhydride (ASA)
→ Hydrophobization of NFC by 2wt% ASA
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+Esterification
NFC NFC-ASAASA
R=C12-C20
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Morphology Control by Hydrophobization
Preparation of NFC-ASA Aerogels
Examples of sample compositions:
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Sample c (NFC-ASA) c (glucose) porosity
JNF46 5wt% - 96.7 %
JNF47 5wt% 0.25wt% 96.5%
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Morphology Control by Hydrophobization
Comparison of microstructure:
Effect of hydrophobization: JNF44: 0% ASA, JNF 46: 2wt% ASA
→ Screening of fiber-fiber interaction by hydrophobizationsuppresses sheet-like microstructure formation
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100 μm100 μm
JNF 44 JNF 46
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Morphology Control by Hydrophobization
Comparison of microstructure:
Effect of hydrophobization: JNF44: 0% ASA, JNF 46: 2wt% ASA
→ Screening of fiber-fiber interaction by hydrophobizationsuppresses sheet-like microstructure formation
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20 μm
JNF 44 JNF 46
20 μm
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Morphology Control by Hydrophobization
Comparison of mechanical properties:
Addition of glucose (JNF46: 0wt%, JNF 47: 0.25wt%)
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→ Only slight increase in mechanical strength, E-modulus (10% strain): 88 kPa (JNF46) → 95 kPa (JNF47)
JNF 46
c (ASA-NFC)=5wt%
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Morphology Control by Hydrophobization
Comparison of mechanical properties:
Effect of hydrophobization: JNF43: 0wt%ASA / JNF47: 2wt%ASA
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→ pure NFC: higher mechanical strength (E-modulus)hydrophobization: higher elasticity, higher stress at high strain
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Morphology Control
Macro- and micromorphology control
Morphology-Properties-Map
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c (ASA)
c (NFC): E-modulus
NFC sheets NFC bundles
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Potential Applications
Potential applications of NFC aerogels
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Insulation Materials
Composite Materials
Packaging(Cellulosic Styrofoam)
Filters & Membranes
Biomedical - Tissue Engineering
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Summary
- Freeze-drying of NFC suspensions:Highly porous aerogels with high mechanical stability
- Use of glucose as cryprotectant:- homogeneous sample morphology
- Increase of NFC concentration:- increase in mechanical stability (E-modulus)
- Hydrophobization of NFC:- screening of fiber-fiber-interaction- softening of the gel structure (lower E-modulus)- increase in elasticity
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Outlook
- Variation of NFC qualities (e.g. aspect ratios)
- NFC functionalization (e.g. fiber bonding)
- Different types of cryoprotectants
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Acknowledgements
- KCL Owner Companies
Metsäliitto Group: M-real, Metsä-Botnia, Myllykoski Group, Stora Enso and UPM-Kymmene
- Rettenmaier & Söhne GmbH (JRS)
- Marko Peura (University of Helsinki, X-Ray microtomography)