Preparation and characterization of sodium carboxymethyl cellulose/cotton linter cellulose nanofibril composite films

Oun, Ahmed A.; Rhim, Jong‐Whan

doi:10.1016/j.carbpol.2015.03.073

Cited by 230 publications

(109 citation statements)

References 39 publications

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“…In addition to the barrier properties and related functional capabilities of nanocellulose-based layers, much research has focused on desirable attributes such as transparency Petersson and Oksman 2006;Nordqvist et al 2007;Shimazaki et al 2007;Ayuk et al 2009;Fernandes et al 2009Fernandes et al , 2010Fukuzumi et al 2009;Kim et al 2009;Nogi et al 2009;Petersson et al 2009;Sehaqui et al 2010;Hassan et al 2011;Pereda et al 2011Pereda et al , 2014Stevanic et al 2011;Yang et al 2011;Aulin et al 2012;Hu et al 2013;Li et al 2013a;Tome et al 2013;Khan et al 2014b;Kumar et al 2014;Kurihara and Isogai 2014;Tammelin and Vartiainen 2014;Ambrosio-Martin et al 2015b;Honorato et al 2015;Oun and Rhim 2015;Toivonen et al 2015a,b). Hu et al (2013) showed that nanocellulose films could be rendered conductive by deposition of tindoped indium oxide, while still retaining their transparency; solar cells prepared with such films were successfully demonstrated.…”

Section: Transparencymentioning

confidence: 99%

“…This is a particularly important issue in the case of fiber-reinforced plastic composites that combine cellulosic fibers and relatively soft matrix materials. In such cases, though the composites might have much higher modulus than the polymer alone, the elongation or distortion before failure can be much lower (Martins et al 2009;Pereda et al 2011;Salehudin et al 2014;Santos et al 2014;Oun and Rhim 2015).…”

Section: Brittleness Of Reinforced Matrixmentioning

confidence: 99%

“…In potential applications where a nanocellulose-based film is applied directly to food, researchers have been concerned about the edibility of such films (Dogan and McHugh 2007;Azeredo et al 2009Azeredo et al , 2010Bilbao-Sáinz et al 2010;Johnsy and Siddaramaiah 2012;Pereda et al 2014;Oun and Rhim 2015;George et al 2016). In none of these cited studies was edibility actually evaluated; rather edibility was assumed based on the ubiquitous character and natural source of the cellulose.…”

Section: Edibilitymentioning

confidence: 99%

See 2 more Smart Citations

Nanocellulose in Thin Films, Coatings, and Plies for Packaging Applications: A Review

Hubbe

Ferrer

Tyagi

et al. 2017

BioRes

244

234

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This review article was prompted by a remarkable growth in the number of scientific publications dealing with the use of nanocellulose (especially nanofibrillated cellulose (NFC), cellulose nanocrystals (CNC), and bacterial cellulose (BC)) to enhance the barrier properties and other performance attributes of new generations of packaging products. Recent research has confirmed and extended what is known about oxygen barrier and water vapor transmission performance, strength properties, and the susceptibility of nanocellulose-based films and coatings to the presence of humidity or moisture. Recent research also points to various promising strategies to prepare ecologically-friendly packaging materials, taking advantage of nanocellulose-based layers, to compete in an arena that has long been dominated by synthetic plastics. Some promising approaches entail usage of multiple layers of different materials or additives such as waxes, high-aspect ratio nano-clays, and surface-active compounds in addition to the nanocellulose material.While various high-end applications may be achieved by chemical derivatization or grafting of the nanocellulose, the current trends in research suggest that high-volume implementation will likely incorporate water-based formulations, which may include water-based dispersions or emulsions, depending on the enduses. Resources; North Carolina State University, Raleigh, NC 27695, USA; b: Nalco Champion, an Ecolab Company, 7705 Highway 90-A, Sugar Land, TX 77478, USA; c: School of Clothing and Textiles, Jiangnan University, Wuxi, Jiangsu, China; d: Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University, PO Box 16300, FI-00076 Aalto, Finland; * Corresponding author: hubbe@ncsu Table B -Barrier properties of NFC films 2144 2145 2145 2149 2151 2152 2153 2155 2155 2157 2157 2158 2158 2159 2159 2166 2170 2172 2173 2174 2175 2177 2179 2208 2208 2228 REVIEW ARTICLE bioresources.com . "Nanocellulose in packaging," BioResources 12(1), 2143-2233. 2144 Keywords: Barrier properties; Water vapor transmission; Food shelf life; Oxygen transmission; Packages; Cellulose nanomaterials Contact information: a: Department of Forest Biomaterials, College of Natural INTRODUCTIONThere has been explosive growth in the publication of peer-reviewed articles that combine key words related to "packaging" and "cellulose," in combination with the terms "nanocellulose," "nanocrystal*," or "nanofibril*". As of November 2016, a search of this combination of terms showed about as many publications since the start of 2015, compared to all preceding years combined. Given such an acceleration of research around the world, it makes sense to ask whether this high amount of research effort has yet borne significant fruit. In light of this question, the emphasis of this review article is on research publications that shed light on known challenges to the successful implementation of nanocellulose products to enhance the performance of packaging.In principle, a nano...

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Section: Transparencymentioning

confidence: 99%

Section: Brittleness Of Reinforced Matrixmentioning

confidence: 99%

Section: Edibilitymentioning

confidence: 99%

See 1 more Smart Citation

Nanocellulose in Thin Films, Coatings, and Plies for Packaging Applications: A Review

Hubbe

Ferrer

Tyagi

et al. 2017

BioRes

244

234

View full text Add to dashboard Cite

show abstract

“…The lack of consistency in nomenclature has cost plenty of efforts to search, understand, and cross-check different materials. The terms that have been used include cellulose nanocrystal [25], cellulose nano-crystal [26], cellulose nanocrystalline [27], crystalline cellulose nanofibril [28], nano-fiber [29] nano-cellulose [30] nanocrystalline cellulose [31], cellulose nanofibril [20], nanofibrillated cellulose [6], nanofibrillar cellulose [32], nano-fibrillated cellulose [33], cellulose nanofiber [34]. The subjective use of different terms for the same material may lead to confusion, misunderstanding, and miscommunication in this domain area, Cao -eXPRESS Polymer Letters Vol.12, No.9 (2018) and therefore it is crucial to standardize the terminology.…”

Section: Y Caomentioning

confidence: 99%

Applications of cellulose nanomaterials in pharmaceutical science and pharmacology

Cao¹

2018

Express Polym. Lett.

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Abstract. Cellulose nanomaterials (CNs) have been successfully applied to a variety of scientific areas in recent years with remarkable engineering utilities. As sustainable materials of huge abundance, CNs show significant potentials in fine-tune the microstructures and kinetics from the nano-level. This paper reviews recent key advancements of the use of CNs in the fields of pharmaceutical science and pharmacology. A broad overview of the development of CNs is provided, and the current methods to obtain the materials are discussed. The different types of processing techniques are reviewed, that are critical to the applications in pharmaceutical science and pharmacology. The key breakthroughs of applications in major fields are discussed, including oral administration, topical administration, tissue scaffolds, and antibacterial applications.

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“…Changes in AlOOH quantity let us control the generated cells sizes within the diapasone of 100 -1000 µm [8]. Biodegradable Na-CMC polymer is nowadays widely used in production and attracts researchers' attention as the basis for developing membranes and packaging films [9][10][11]. There are almost no works devoted to using porous organic films as antifriction materials.…”

Section: Introductionmentioning

confidence: 99%

Developing of porous composites on the basis of bi-polymers with aluminum particles and AlOOH nanoparticles for getting antifriction coatings

Antonova¹,

Лисниченко²,

Sibirka³

2017

MATEC Web Conf.

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Abstract. Porous composites on the basis of bi-polymer of natrium-carboxymethylcellulose containing aluminum powder and nano-particles of aluminum oxohydroxide have been developed. With the help of electronic microscopy the sizes of the formed pores were defined: 600 -1000 µm; the surface porosity of the coating was defined as well, it made 65%. Using methods of x-ray diffraction analysis and infrared spectroscopy it was stated that the phase composition of porous composites remains unchanged in the process of forming. The possibility to form antifriction coatings by filling porous matrixes with solid lubricants is shown on the example of molybdenum disulfide. When applying the coatings to steel surfaces the friction coefficient reduces by 60%. With the help of differential scanning calorimetry the limit of coatings thermo destruction was defined: 300 -306° С.

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Preparation and characterization of sodium carboxymethyl cellulose/cotton linter cellulose nanofibril composite films

Cited by 230 publications

References 39 publications

Nanocellulose in Thin Films, Coatings, and Plies for Packaging Applications: A Review

Nanocellulose in Thin Films, Coatings, and Plies for Packaging Applications: A Review

Applications of cellulose nanomaterials in pharmaceutical science and pharmacology

Developing of porous composites on the basis of bi-polymers with aluminum particles and AlOOH nanoparticles for getting antifriction coatings

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