Nanofibrillated Cellulose Nanofibrillated Cellulose Fibers:Fibers:

Where Size Matters in Opening Where Size Matters in Opening New Markets to Nanofiber UsageNew Markets to Nanofiber Usage

Presentation to 2008Presentation to 2008TAPPI Nanotechnology ConferenceTAPPI Nanotechnology Conference

June 25June 25--27, 200827, 2008St Louis, MOSt Louis, MO

ByByE.C. Homonoff, R.E. Evans, C.D. WeaverE.C. Homonoff, R.E. Evans, C.D. Weaver

Engineered Fibers Technology, LLCEngineered Fibers Technology, LLCShelton, CTShelton, CT

Nanofibrillated Cellulose Fibers:Nanofibrillated Cellulose Fibers:Opening New Markets to Opening New Markets to

Nanofiber UsageNanofiber Usage

IntroductionIntroduction Regenerated /Natural Cellulose Regenerated /Natural Cellulose

Structure and NanofibrillationStructure and Nanofibrillation Commercial Production of Cellulose Commercial Production of Cellulose

Nanofibrillated FibersNanofibrillated Fibers Applications / Performance of Applications / Performance of

Nanofibrillated FibersNanofibrillated Fibers SummarySummary

Conventional Nanofiber Conventional Nanofiber Definition /Definition /

Polymeric FibersPolymeric Fibers Fibers with Diameters less than About 0.5 micronsFibers with Diameters less than About 0.5 microns

(Consensus Not Universal with Definitions Down to < 10 (Consensus Not Universal with Definitions Down to < 10 Nanometers and Up to 1 Micron)Nanometers and Up to 1 Micron)

Typical Polymeric Nanofibers Currently Produced Typical Polymeric Nanofibers Currently Produced Have Diameters Between 50 and 300 NanometersHave Diameters Between 50 and 300 Nanometers

Presentation Focused on Cellulosic Nanofibers Presentation Focused on Cellulosic Nanofibers Created By Nanofibrillation Technology and Created By Nanofibrillation Technology and Produced on Commercial Scale Produced on Commercial Scale

Alternative Alternative Low CostLow Cost Nanofibers for Range of Nanofibers for Range of Paper Making and Other Engineered ApplicationsPaper Making and Other Engineered Applications

Relative Size of Nanofibers Relative Size of Nanofibers Compared to Human HairCompared to Human Hair

(20,000 to 30,000 nm)(20,000 to 30,000 nm)

Nanofibrillated Cellulose Fibers:Nanofibrillated Cellulose Fibers:Opening New Markets to Opening New Markets to

Nanofiber UsageNanofiber Usage

IntroductionIntroduction Regenerated /Natural Cellulose Regenerated /Natural Cellulose

Structure and NanofibrillationStructure and Nanofibrillation Commercial Production of Cellulose Commercial Production of Cellulose

Nanofibrillated FibersNanofibrillated Fibers Applications / Performance of Applications / Performance of

Nanofibrillated FibersNanofibrillated Fibers SummarySummary

Nanofibrillation ofNanofibrillation ofCellulosic Fibers Cellulosic Fibers (1)(1)

Natural Cellulosic Fibers Natural Cellulosic Fibers

Wood /NonWood /Non--WoodWood Grow with Microfibrillar StructureGrow with Microfibrillar Structure Micro / Nano Fibrils Can be Generated Under Special FibrillationMicro / Nano Fibrils Can be Generated Under Special Fibrillation ProcessingProcessing

Regenerated Cellulose Regenerated Cellulose

Rayon / ViscoseRayon / Viscose More Amorphous Structure More Amorphous Structure Generally Abrades into short lengthsGenerally Abrades into short lengths Higher Modulus Polynosic Rayon (Tufcel) had High Fibrillation LeHigher Modulus Polynosic Rayon (Tufcel) had High Fibrillation Levelsvels

Lyocell Lyocell High Crystallinity with microfibrillar structure / similar to lHigh Crystallinity with microfibrillar structure / similar to lyotropic rods yotropic rods

low lateral bonding between crystalline regionslow lateral bonding between crystalline regions

Production of Regenerated Production of Regenerated Cellulose FibersCellulose Fibers

Production of Lyocell FibersProduction of Lyocell FibersPhysical vs. Chemical ProcessPhysical vs. Chemical Process

Purified Dissolving Wood PulpPurified Dissolving Wood Pulp Amine Oxide SolventAmine Oxide Solvent Extruded (Spun) Through Spinnerets Extruded (Spun) Through Spinnerets Continuous Filaments / Circular Continuous Filaments / Circular

CrossCross--Section (Cut to Short Section (Cut to Short 0.5 to 8 0.5 to 8 mmmm--Lengths)Lengths)

Long Chain Molecules / Highly Long Chain Molecules / Highly Crystalline ( > 60 % ) StructureCrystalline ( > 60 % ) Structure

Lyocell Fiber Lyocell Fiber As SpunAs Spun

Proposed Structure at Different Proposed Structure at Different Dimensional Levels of Lyocell Fiber Dimensional Levels of Lyocell Fiber (2)(2)

Lyocell Fiber Morphology Lyocell Fiber Morphology (3)(3) --The Ultimate The Ultimate Islands in the SeaIslands in the Sea

Fibrillation /Splitting Mechanism to Fibrillation /Splitting Mechanism to Create Lyocell NanofibersCreate Lyocell Nanofibers

Initial peeling of Initial peeling of fibrils (macro fibrils (macro bundles) along the bundles) along the fiber length of fiber length of individual fibers, individual fibers, induced by induced by mechanical stress, mechanical stress, special processing / special processing / treatmentstreatments

Fibrillation /Splitting Mechanism Fibrillation /Splitting Mechanism to Create Lyocell Nanofibersto Create Lyocell Nanofibers

Continued Splitting Continued Splitting Into Microfibrils / Into Microfibrils / With Final With Final Nanofibrillated Nanofibrillated Fiber Exhibiting Fiber Exhibiting Range of Fibril Range of Fibril DiametersDiameters

High Aspect Ratio High Aspect Ratio Fibrils ( Est. > Fibrils ( Est. > 1000:1)1000:1)

Lyocell Nanofibrillated Fiber Lyocell Nanofibrillated Fiber StructureStructure

Large majority (number Large majority (number average) of fibril diameters average) of fibril diameters are between 0.05 and 0.5 are between 0.05 and 0.5 microns, with typical average microns, with typical average of about 0.3 micronof about 0.3 micron

Very small number fraction of Very small number fraction of 2 2 --5 micron diameters 5 micron diameters

Effective as a Effective as a bridge or bridge or scaffold fiberscaffold fiber in in coating applicationscoating applications

< Other Typical Fibers < Other Typical Fibers In Paper FormulationIn Paper Formulation

Nanofibrillated Lyocell Fibril Nanofibrillated Lyocell Fibril Diameter DistributionDiameter Distribution

0

5

10

15

20

25

Nanofibrillated Lyocell Exhibits Nanofibrillated Lyocell Exhibits Very High Aspect Ratio FibrilsVery High Aspect Ratio Fibrils

Other Wood /NonOther Wood /Non--Wood Wood Nanofibrillation Process Nanofibrillation Process

DevelopmentsDevelopmentsCottonCotton Wood PulpWood Pulp

Synthetic Nanofibrillated Fiber Synthetic Nanofibrillated Fiber DevelopmentsDevelopments

Acrylic/PAN ConventionalAcrylic/PAN Conventional

Nanofibrillated Cellulose Fibers:Nanofibrillated Cellulose Fibers:Opening New Markets to Opening New Markets to

Nanofiber UsageNanofiber Usage

IntroductionIntroduction Regenerated /Natural Cellulose Regenerated /Natural Cellulose

Structure and NanofibrillationStructure and Nanofibrillation Commercial Production of Cellulose Commercial Production of Cellulose

Nanofibrillated FibersNanofibrillated Fibers Applications / Performance of Applications / Performance of

Nanofibrillated FibersNanofibrillated Fibers SummarySummary

Production of Lyocell Production of Lyocell Nanofibrillated FibersNanofibrillated Fibers

Various Processes Described for Fibrillation In Literature Various Processes Described for Fibrillation In Literature Using ShortUsing Short--Cut FibersCut Fibers

EFT Proprietary Process Developed for NanofibrillationEFT Proprietary Process Developed for Nanofibrillation

Fiber / Fibril Length Controlled by Length of Starting ShortFiber / Fibril Length Controlled by Length of Starting Short--Cut Cut FiberFiber

Nanofibrillation Process Less Energy Intensive / Very High Nanofibrillation Process Less Energy Intensive / Very High Number Average Submicron Fibril DiametersNumber Average Submicron Fibril Diameters

Commercial ScaleCommercial Scale

Economic Alternative to Other Sources of NanofibersEconomic Alternative to Other Sources of Nanofibers

Processes Being Developed for Processes Being Developed for Nanofiber ProductionNanofiber Production

TechniqueTechnique Fiber Size Fiber Size (nm)(nm)

ThroughputThroughput

ElectrospinningElectrospinning ~100~100--300300 0.3 g/hole/hour0.3 g/hole/hour

MeltblowingMeltblowing 300+300+ 0.5 g/hole/hour0.5 g/hole/hour

Bicomponent Bicomponent spinning/separationspinning/separation

300+300+ 0.5 g/hole/min with 0.5 g/hole/min with multiple rows of holesmultiple rows of holes

NanofibrillationNanofibrillation 5050--500500 +1500 g/min/reactor+1500 g/min/reactor

Nanofibrillation Process Provides a 1000X Improvement in Nanofibrillation Process Provides a 1000X Improvement in Throughput Compared to Other ProcessesThroughput Compared to Other Processes

New Process LyocellNew Process LyocellNanofibrillated Fiber Nanofibrillated Fiber --ProductionProduction

Features ofFeatures ofNew Process Nanofibrillated New Process Nanofibrillated

FibersFibers

Wide Range of Nanofibrillation Level (CSF) and Fiber Wide Range of Nanofibrillation Level (CSF) and Fiber Length PossibleLength Possible

CSF 200 to Zero CSF 200 to Zero (and Much Less)(and Much Less) Fiber Length 1 to 8 mmFiber Length 1 to 8 mm

Products Provided In Various FormsProducts Provided In Various Forms

Wet Slurry ( 2Wet Slurry ( 2--3% Consistency)3% Consistency) Dewatered (~10% Solids)Dewatered (~10% Solids) Wet Lap /Crumb (~ 20 % Solids)Wet Lap /Crumb (~ 20 % Solids) Dry Lap (~ 80 % Solids) DevelopmentalDry Lap (~ 80 % Solids) Developmental

Features of Cellulosic Features of Cellulosic Nanofibrillated FibersNanofibrillated Fibers

Cellulose Nanofibrillated Fiber Supply Cellulose Nanofibrillated Fiber Supply

Renewable / Sustainable SourcesRenewable / Sustainable Sources BiodegradableBiodegradable FDA Approved Fiber GradesFDA Approved Fiber Grades

Low Cost/High Value Compared with Other Low Cost/High Value Compared with Other Nanofiber TechnologiesNanofiber Technologies

Current Development Scale & CommercialCurrent Development Scale & Commercial--Scale Scale Production In Place (tonnes/day production Production In Place (tonnes/day production scale)scale)

Features ofFeatures ofNew Nanofibrillated Fiber New Nanofibrillated Fiber

TechnologyTechnology

Hydrophillic and Hydrophobic ChemistryHydrophillic and Hydrophobic Chemistry

Manmade and Natural CelluloseManmade and Natural Cellulose Cellulose BlendsCellulose Blends Acrylic (PAN)Acrylic (PAN)

Compatible with High Speed Papermaking Compatible with High Speed Papermaking / Wet Laid Nonwoven Technology/ Wet Laid Nonwoven Technology

Nanofibrillated Cellulose Fibers:Nanofibrillated Cellulose Fibers:Opening New Markets to Opening New Markets to

Nanofiber UsageNanofiber Usage

IntroductionIntroduction Regenerated /Natural Cellulose Regenerated /Natural Cellulose

Structure and NanofibrillationStructure and Nanofibrillation Commercial Production of Cellulose Commercial Production of Cellulose

Nanofibrillated FibersNanofibrillated Fibers Applications / Performance of Applications / Performance of

Nanofibrillated FibersNanofibrillated Fibers SummarySummary

Current Applications of Current Applications of Nanofibers / WetNanofibers / Wet--Laid PapersLaid Papers

Air FiltrationAir Filtration Water / Liquid FiltrationWater / Liquid Filtration Protective ClothingProtective Clothing Medical BarriersMedical Barriers Clean Room WipesClean Room Wipes

Cost and Low Productivity Limiting Cost and Low Productivity Limiting Development /Use Development /Use

in These and Other Applicationsin These and Other Applications

Cellulosic Cellulosic Nanofibrillated Fibers Nanofibrillated Fibers In Papermaking / Filtration / In Papermaking / Filtration /

Nonwoven ApplicationsNonwoven Applications 100 % Nanofibrillated 100 % Nanofibrillated

Fiber WetFiber Wet--Laid Papers / Laid Papers / Microporous StructureMicroporous Structure(Mean Pore Size < 1 (Mean Pore Size < 1 Micron)Micron)

High Efficiency Binder High Efficiency Binder Fiber for Other Fibers / Fiber for Other Fibers / Active Particulates Active Particulates (Without Blinding (Without Blinding Absorptive Absorptive Particles/Fibers) Particles/Fibers)

CoatingsCoatings

Nanofiber Papers with Nanofiber Papers with Microbial Barrier Properties Microbial Barrier Properties (4)(4)

1

2

3

4

5

6

7

100% 50% 10% 1% MedicalPaper A

MedicalPaper B

A

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1

6

0

8

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Nanofibrillated Lyocell Added to Wood Nanofibrillated Lyocell Added to Wood PulpPulp-- Compared with Commercial PapersCompared with Commercial Papers

Nanofiber Papers with Nanofiber Papers with Microbial Barrier Properties Microbial Barrier Properties (4)(4)

0.00

0.01

0.02

0.03

0.04

100% 50% 10% 1% MedicalPaper A

MedicalPaper B

A

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1

6

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8

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(

%

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2.01%Nanofibrillated Lyocell Added to Wood Pulp Nanofibrillated Lyocell Added to Wood Pulp --Compared with Commercial PapersCompared with Commercial Papers

Comparison of Nanofibrillated Comparison of Nanofibrillated Fiber and Other Filtration Fiber and Other Filtration

Media Media (5)(5)

Paper Paper ConstructionConstruction

Mean Pore Mean Pore DiameterDiameter(microns)(microns)

Air Air Permeability@ 1 Permeability@ 1 psipsi(L/psi/cm(L/psi/cm22/min)/min)

ThicknessThickness(mm)(mm)

NanofibrillatedNanofibrillatedFiberFiber

0.350.35 2.32.3 0.850.85

Microglass Microglass FiberFiber

3.253.25 3030 0.850.85

Meltspun WebMeltspun Web 1010 105105 0.900.90

Nanofibrillated Fiber Coating Nanofibrillated Fiber Coating On Nonwoven Filter MediaOn Nonwoven Filter Media

Coated Side Uncoated SideCoated Side Uncoated Side

Nanofibrillated Fiber Coated Nanofibrillated Fiber Coated WebsWebs

Coating Weights of Coating Weights of 0.5 0.5 5 g/m5 g/m22Typically AppliedTypically Applied

Slurry CoatedSlurry Coated

Dual HeadboxDual Headbox

OtherOther

Effect of Nanofibrillated Coatings Effect of Nanofibrillated Coatings on Filtration Efficiency of on Filtration Efficiency of Automotive Air Filter Automotive Air Filter (6)(6)

1.6 g/m1.6 g/m22 Lyocell Nanofiber Lyocell Nanofiber Coating Level on Resin Bonded Coating Level on Resin Bonded Cellulose FilterCellulose Filter

Relative performance can be Relative performance can be compared using Figure of Merit compared using Figure of Merit (FOM) (FOM)

Can be thought of as benefit to Can be thought of as benefit to cost ratiocost ratio

Tested using 0.18 Tested using 0.18 m DOP aerosol m DOP aerosol at 32 l/m airflowat 32 l/m airflow

0

1

2

3

Reference Lyocell

R

e

l

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F

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Nanofibrillated Fibers for Nanofibrillated Fibers for Paper Coating ApplicationsPaper Coating Applications

Advantages of Nanocellulose Coatings:Advantages of Nanocellulose Coatings:

Extremely light weight additions (down to 0.005g/sq. Extremely light weight additions (down to 0.005g/sq. meter)meter)

Increase smoothness of paper surfaceIncrease smoothness of paper surface

Do not have rheology issues with other additivesDo not have rheology issues with other additives

Enhance pigment application in printing processes /brighter Enhance pigment application in printing processes /brighter colors /greater clarity of printcolors /greater clarity of print

Can be charged to enhance pigment attraction to print Can be charged to enhance pigment attraction to print surface.surface.

Potential Benefits of Potential Benefits of Nanofibrillated Fibers / Nanofibrillated Fibers /

WetWet--laid Paperslaid Papers Better Filtration EfficiencyBetter Filtration Efficiency High Level of Particle / Fiber RetentionHigh Level of Particle / Fiber Retention Higher Wet / Dry StrengthHigher Wet / Dry Strength Lower Basis WeightLower Basis Weight Higher AbsorbencyHigher Absorbency Better Surface SmoothnessBetter Surface Smoothness Increased Barrier PropertiesIncreased Barrier Properties Better Printing QualityBetter Printing Quality FDA Approval / Biodegradable FDA Approval / Biodegradable

Other Potential ApplicationsOther Potential Applications--EFTecEFTecTMTM Nanofibrillated FibersNanofibrillated Fibers

Structural Structural ReinforcementsReinforcements

Surface ModifiersSurface Modifiers Print Clarity Print Clarity

CoatingsCoatings Wet /Dry Strength Wet /Dry Strength

EnhancersEnhancers Processing Aids Processing Aids Particle BindersParticle Binders

Nanofibrillated Cellulose Fibers:Nanofibrillated Cellulose Fibers:Opening New Markets to Opening New Markets to

Nanofiber UsageNanofiber Usage

IntroductionIntroduction Regenerated /Natural Cellulose Regenerated /Natural Cellulose

Structure and NanofibrillationStructure and Nanofibrillation Commercial Production of Cellulose Commercial Production of Cellulose

Nanofibrillated FibersNanofibrillated Fibers Applications / Performance of Applications / Performance of

Nanofibrillated FibersNanofibrillated Fibers SummarySummary

SummarySummary

EFTec Nanofibrillated Cellulosic Fibers Offer New EFTec Nanofibrillated Cellulosic Fibers Offer New Products for New ApplicationsProducts for New Applications

Production Capabilities in Place for EFTec Production Capabilities in Place for EFTec Nanofibrillated FibersNanofibrillated Fibers

Various Product Forms Can Be Supplied to Meet Various Product Forms Can Be Supplied to Meet Specific Requirements of PapermakersSpecific Requirements of Papermakers

Customer Specific EFT Cellulosic Nanofibrillated Customer Specific EFT Cellulosic Nanofibrillated Fibers Can be ProducedFibers Can be Produced

AcknowledgementsAcknowledgements

The Assistance of A. Slater and C. The Assistance of A. Slater and C. MechtlerMechtler, , Lenzing Fibers, in Preparing this Presentation is Lenzing Fibers, in Preparing this Presentation is Greatly Appreciated.Greatly Appreciated.

ReferencesReferences1)1) C. C. WoodingsWoodings, , Fibrillating Lyocell for Microfiber ApplicationsFibrillating Lyocell for Microfiber Applications, Nonwovens World, , Nonwovens World,

FebruaryFebruary--March, 2003, 42March, 2003, 42--4545

2)2) K. Christian Schuster, et. al., K. Christian Schuster, et. al., CharacterisingCharacterising the Emerging Lyocell the Emerging Lyocell FibresFibresStructures by Ultra Small Angle Structures by Ultra Small Angle NeutonNeuton Scattering (USANS)Scattering (USANS), , LenzingerLenzinger BerichteBerichte, , 82 (2003) 10782 (2003) 107--117117

3)3) M. AbuM. Abu--Rous, E. Rous, E. IngolicIngolic, K.C. Schuster, , K.C. Schuster, Visualization of the Visualization of the NanoNano--Structure of Structure of Tencel (Lyocell) and Other Cellulosics as an Approach to ExplainTencel (Lyocell) and Other Cellulosics as an Approach to Explaining Functional and ing Functional and Wellness Properties in TextilesWellness Properties in Textiles, , LenzingerLenzinger BerichteBerichte, 85 (2006) 31, 85 (2006) 31--3737

4)4) I.V. I.V. BletsosBletsos, et. al., , et. al., Porous Fibrous Sheets of NanofibersPorous Fibrous Sheets of Nanofibers, US Patent Application , US Patent Application 2005/0142973, June 30, 20052005/0142973, June 30, 2005

5)5) E. E. Koslow, E. E. Koslow, Air and Water Filters Produced from LowAir and Water Filters Produced from Low--Cost NanofibersCost Nanofibers, Insight , Insight Conference, 2003Conference, 2003

6)6) E. E. Koslow, E. E. Koslow, Nanofiber Filter MediaNanofiber Filter Media, US Patent 6,872,311, March 29, 20005, US Patent 6,872,311, March 29, 20005

Nanofibrillated Cellulose Fibers: Where Size Matters in Opening New Markets to Nanofiber Usage Nanofibrillated Cellulose Fibers:Opening New Markets to Nanofiber UsageConventional Nanofiber Definition /Polymeric FibersRelative Size of Nanofibers Compared to Human Hair (20,000 to 30,000 nm) Nanofibrillated Cellulose Fibers:Opening New Markets to Nanofiber UsageNanofibrillation of Cellulosic Fibers (1)Production of Regenerated Cellulose FibersProduction of Lyocell FibersPhysical vs. Chemical ProcessLyocell Fiber As SpunProposed Structure at Different Dimensional Levels of Lyocell Fiber (2)Lyocell Fiber Morphology (3) - The Ultimate Islands in the SeaFibrillation /Splitting Mechanism to Create Lyocell NanofibersFibrillation /Splitting Mechanism to Create Lyocell NanofibersLyocell Nanofibrillated Fiber Structure Nanofibrillated Lyocell Fibril Diameter DistributionNanofibrillated Lyocell Exhibits Very High Aspect Ratio FibrilsOther Wood /Non-Wood Nanofibrillation Process DevelopmentsSynthetic Nanofibrillated Fiber Developments Nanofibrillated Cellulose Fibers:Opening New Markets to Nanofiber UsageProduction of Lyocell Nanofibrillated FibersProcesses Being Developed for Nanofiber ProductionNew Process Lyocell Nanofibrillated Fiber -ProductionFeatures of New Process Nanofibrillated FibersFeatures of Cellulosic Nanofibrillated FibersFeatures of New Nanofibrillated Fiber Technology Nanofibrillated Cellulose Fibers:Opening New Markets to Nanofiber UsageCurrent Applications of Nanofibers / Wet-Laid PapersCellulosic Nanofibrillated Fibers In Papermaking / Filtration / Nonwoven ApplicationsNanofiber Papers with Microbial Barrier Properties (4)Nanofiber Papers with Microbial Barrier Properties (4)Comparison of Nanofibrillated Fiber and Other Filtration Media (5) Nanofibrillated Fiber Coating On Nonwoven Filter Media Nanofibrillated Fiber Coated WebsEffect of Nanofibrillated Coatings on Filtration Efficiency of Automotive Air Filter (6) Nanofibrillated Fibers for Paper Coating ApplicationsPotential Benefits of Nanofibrillated Fibers / Wet-laid PapersOther Potential Applications- EFTecTM Nanofibrillated Fibers Nanofibrillated Cellulose Fibers:Opening New Markets to Nanofiber UsageSummaryAcknowledgementsReferences