Increased Water Resistance of CTMP Fibers by Oat (Avena sativa L.) Husk Lignin

Sipponen, Mika H.; Pastinen, Ossi; Strengell, Reetta; Hyötyläinen, J.; Heiskanen, Isto; Laakso, Simo

doi:10.1021/bm101007u

Cited by 12 publications

(9 citation statements)

References 30 publications

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“…In the current study, the estimated proportion of lignin accessible for Azure B in wheat straw suggests that lignin is largely located on the porous surfaces and in the conductive tissues such as the xylem where lignin has been mentioned to be unwettable (Laschimke, 1989). This is consistent with the fact that lignin is the principal component of water conducting tissues of vascular plants, and that isolated oat husk lignin increases water resistance of lignocellulosic fibers (Sipponen et al, 2010). …”

Section: Effect Of Extractives and Particle Size On Adsorptionsupporting

confidence: 83%

Determination of surface-accessible acidic hydroxyls and surface area of lignin by cationic dye adsorption

Sipponen

Pihlajaniemi

Littunen

et al. 2014

Bioresource Technology

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A new colorimetric method for determining the surface-accessible acidic lignin hydroxyl groups in lignocellulose solid fractions was developed. The method is based on selective adsorption of Azure B, a basic dye, onto acidic hydroxyl groups of lignin. Selectivity of adsorption of Azure B on lignin was demonstrated using lignin and cellulose materials as adsorbents. Adsorption isotherms of Azure B on wheat straw (WS), sugarcane bagasse (SGB), oat husk, and isolated lignin materials were determined. The maximum adsorption capacities predicted by the Langmuir isotherms were used to calculate the amounts of surface-accessible acidic hydroxyl groups. WS contained 1.7-times more acidic hydroxyls (0.21 mmol/g) and higher surface area of lignin (84 m 2 /g) than SGB or oat husk materials.Equations for determining the amount of surface-accessible acidic hydroxyls in solid fractions of the three plant materials by a single point measurement were developed. A method for high-throughput characterization of lignocellulosic materials is now available.

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Section: Effect Of Extractives and Particle Size On Adsorptionsupporting

confidence: 83%

Determination of surface-accessible acidic hydroxyls and surface area of lignin by cationic dye adsorption

Sipponen

Pihlajaniemi

Littunen

et al. 2014

Bioresource Technology

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“…Lignin is known to provide water resistance to lignocellulosic materials such as cellulosic fibers. 32 The properties of the two lignins obtained from the pulping spent liquor were studied to better understand how they affect water penetration and dissolution of urea from the impregnated straws.…”

Section: Acs Sustainable Chemistry and Engineeringmentioning

confidence: 99%

Calcium Chelation of Lignin from Pulping Spent Liquor for Water-Resistant Slow-Release Urea Fertilizer Systems

Sipponen

Rojas²,

Pihlajaniemi

et al. 2016

ACS Sustainable Chem. Eng.

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“…In the latter case, starch is of great interest given its low cost, availability, and compostability. − Unfortunately, critical limitations arise from starch’s high hydrophilicity and poor mechanical integrity. , In fact, starch-based porous materials lack mechanical strength in wet condition and display limited thermal resistance. Such drawbacks can be addressed by incorporation of cellulosic fibrils, especially if they contain residual lignin, which may endow the system with improved water resistance. , Moreover, it is expected that lignin-containing nanocellulose combined with starch is compostable and completely biodegradable, adding to its potential for packaging. Thus, this work addresses the synthesis of a new class of biofoams consisting of starch (amylopectin) reinforced with LCNF from EFB, which were tested for their mechanical strength and water resistance.…”

Section: Introductionmentioning

confidence: 99%

“…Such drawbacks can be addressed by incorporation of cellulosic fibrils, especially if they contain residual lignin, which may endow the system with improved water resistance. 31,32 Moreover, it is expected that lignincontaining nanocellulose combined with starch is compostable and completely biodegradable, adding to its potential for packaging. Thus, this work addresses the synthesis of a new class of biofoams consisting of starch (amylopectin) reinforced with LCNF from EFB, which were tested for their mechanical strength and water resistance.…”

Section: ■ Introductionmentioning

confidence: 99%

Starch-Based Biofoams Reinforced with Lignocellulose Nanofibrils from Residual Palm Empty Fruit Bunches: Water Sorption and Mechanical Strength

Ago

Ferrer

2016

ACS Sustainable Chem. Eng.

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Lignin-containing cellulosic nanofibrils (LCNF) were extracted from residual oil palm empty fruit bunches (EFB), an abundant but underutilized bioresource, by using a set of sulfur-free fractionation methods. The various types of isolated LCNF were used to reinforce starch-based biofoams. The incorporation of LCNF achieved remarkable increases, by a factor of 44 and 66, of the Young's modulus and yield stress in compression mode, respectively. In addition, owing to the relatively lower hydrophilicity of residual lignin, water sorption by the composite biofoams was reduced with LCNF loading. The starch/LCNF nanocomposite biofoams displayed mechanical properties similar to those of polystyrene foams and therefore can potentially represent a sustainable and green alternative for packaging and insulation materials.

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Increased Water Resistance of CTMP Fibers by Oat (Avena sativa L.) Husk Lignin

Cited by 12 publications

References 30 publications

Determination of surface-accessible acidic hydroxyls and surface area of lignin by cationic dye adsorption

Determination of surface-accessible acidic hydroxyls and surface area of lignin by cationic dye adsorption

Calcium Chelation of Lignin from Pulping Spent Liquor for Water-Resistant Slow-Release Urea Fertilizer Systems

Starch-Based Biofoams Reinforced with Lignocellulose Nanofibrils from Residual Palm Empty Fruit Bunches: Water Sorption and Mechanical Strength

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