Nanocellulose Reinforced Polyurethane Hydrogels
Transcript of Nanocellulose Reinforced Polyurethane Hydrogels
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Nanocellulose Reinforced Polyurethane Hydrogels
J. Sierke, R. Fenati, D. Heath, B. McGraw and A.V. Ellis
Department of Chemical Engineering
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•Soybeans are Ohio’s #1 cash crop and #1 export crop
•Soybeans generate over $2.5 billion in annual revenue
in Ohio, and over $5.3 billion in economic impact
•Ohio soybean industry creates about 30,000 Ohio jobs
•Ohio is the 6th largest soybean producing state
•There are about 25,000 soybean farmers in Ohio
Ohio state (USA) Soybeans
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•Soybeans are produced on about 5 million acres in
Ohio
•Total annual production is usually about 250 million
bushels (6.8 million metric tons)
•More than half of Ohio soybeans are exported
•Ohio is known as a reliable supplier of commodity and
specialty (food grade, organic, non-GMO, etc.)
soybeans
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commercial product portfolioR
esea
rch &
D
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Tec
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gy
Sca
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Par
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s Id
entified
Com
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Man
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Primer
Polyurethane dispersions (PUD) –high oleic application
Hull based polymer
Traffic paint and sealer (OH)Roof sealer and lubricant (OH)
Surfactant for health and beauty aid (VA)
SBM microbe inoculant system (OH)
http
://roo
frevive
rs.com
/
Urotuf
UV curable floor coatings (OH)
Soy- PK: BPA free
Fish ingredient
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• Cellulose (and CNF) are renewable resources and biodegradable materials
• Interest in extracting cellulose (and CNF) from waste plant materials, such as soybean straw (approximately 35 % cellulose)
Y. Xue, Z. Mou, H. Xiao, Nanoscale, 9 (2017) 14758-14781.
Cellulose nanofibers
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Lightweight but stiffer than Kevlar® and with eight times the tensile strength of steel
• electrically conductive • highly absorbent• thermostable
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Polyurethane hydrogels
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Cellulose nanofibers (CNF) from straw mulch
pH ≥ 11.54 h
1 % H2O2
pH ≥ 11.54 h
1 % H2O2
NaClONaBr
pH = 10
TEMPO
Straw mulch Yield = 92.8 % TEMPO-oxidisedCellulose
Yield = 70.5 %
Yield = 52.5 %
1. Blending (30 min)
2. Centrifugation
CNF in H2OYield = 85.5 %
500 nm
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TEMPO-mediated oxidation of cellulose
• mixture of TEMPO, NaClO, NaBr, maintained at pH = 10
• converts primary hydroxyl groups of cellulose to carboxylic acids (as carboxylate salt).
A. Isogai, T. Saito, H. Fukuzumi, Nanoscale, 2011, 3, 71-85
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1. HCl, pH = 12 h
2. Washing(with
water)
1. Acetone, 16 h
2. Washing(with
acetone)
Acidification Dehydration
1. NMP
2. Vacuum(removeacetone)
Acetone removal
CNF in H2O
NMP = N-Methyl-2-pyrrolidone
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Triethylamine (1 wt%)
Bath Ultrasonication (3 h)
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+ Diisocyanate
= carbon chain
=
==
Legend
CNF in NMP(unreacted)
( )
crosslink
CNF hydrogel(crosslinked)
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CNF hydrogels
• Hydrogels can be easily made from the 0.5 wt% CNF in TEA/NMP solution
• Simply add a small amount of diisocyanate with catalyst, cure for 24 h at room temperature
(a)
(b)
0.05 g CNF
0.05 g CNF
LDI, DABCO24 h, 20
HDI, DABCO24 h, 20
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Confocal fluorescence micrographs (ethidium bromide staining)
(b)(a)
HDILDI
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CNF in polyurethanes – water uptake
• Soaked in isopropanol for 48 h• Soaked in Milli-Q water for 48 h, then weighed. Freeze dried, and reweighed
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Summary
• Isolated CNF from soybean straw
• Dispersed high loadings of CNF (0.5 wt%) in NMP using triethylamine
• Simple fabrication of CNF hydrogels by addition of diisocyanate with
catalyst to CNF in NMP
• Depending on diisocyanate used;
– CNF hydrogel can be made transparent or opaque
– CNF hydrogel can have variable water uptake (28,200-37,300% or 4,690-7,080%)
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Acknowledgements
Dr Daniel Heath
Barry McGraw Dr Jonathan Sierke
(Dr) Renzo Fenati
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