Novel spider-web-like nanoporous networks based on jute cellulose nanowhiskers

Cao, Xinwang; Wang, Xianfeng; Ding, Bin; Yu, Jianyong; Sun, Gang

doi:10.1016/j.carbpol.2012.11.085

Cited by 33 publications

(15 citation statements)

References 25 publications

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“…At the present scenario it attained a new dimension for the production of high aspect ratio fibers in subnano scale in the range of 5 to 15 nm in diameters. Recently, a variety of materials including polymers, ceramics, semiconductors and metals have been electrospun in to high aspect ratio ultrafine nanofibers structure [56][57][58][59][60][61][62][63]. Because of these interesting morphological features, this cutting-edge technology paves an intensive research in nano-scale.…”

Section: Introductionmentioning

confidence: 99%

Recent Progress on the Fabrication of Ultrafine Polyamide-6 Based Nanofibers Via Electrospinning: A Topical Review

et al. 2014

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Electrospinning is a highly versatile technique to prepare continuous fibers with diameters of the order of nanometers. The remarkable high aspect ratio and high porosity bring electrospun nanofibers highly attractive to various nanotechnological applications such as filtration membranes, protective clothing, drug delivery, tissue-engineering, biosensors, catalysis, fuel cells and so on. In this review, we collectively summarized the recent progress in developments of the electrospun ultrafine polyamide-6 based nanofibers preparation, characterization and their applications. Information of this polyamide-6 and composites together with their processing conditions for electrospinning of ultrafine nanofibers has been summarized in this review. The recent developments made during last few years on these materials are addressed in this review. We are anticipating that this review certainly drive the researchers for developing more intensive investigation for exploring in many technological areas.

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Section: Introductionmentioning

confidence: 99%

Recent Progress on the Fabrication of Ultrafine Polyamide-6 Based Nanofibers Via Electrospinning: A Topical Review

et al. 2014

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“…These often require a relatively large carbon footprint for low yield of filter material produced. Exploiting the intrinsic benefits of natural polymers, Cao et al [91] recently reported the fabrication of jute cellulose nanowhiskers on PAN, PVA, and silica nanofibrous membrane supports. These new biobased and environmental friendly porous network materials offer an alternative route to manufacture, avoiding such issues as higher costs, lower productivity, and time efficiency and the potential need for harmful solvents.…”

Section: Environmental Applicationsmentioning

confidence: 99%

Electrospun Nanomaterials: Biotechnology, Food, Water, Environment, and Energy

Doyle

Choudhari

Ramakrishna

et al. 2013

Conference Papers in Materials Science

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Over the past decade, electrospinning and electrospraying techniques have become affordable platform techniques for growing numbers of students, researchers, academics, and businesses around the world, producing organic and inorganic nanofibres and nanoparticles for a range of purposes. This review illustrates various advances in the science and engineering of electrospun nanomaterials and their applicability in meeting the growing needs within five crucial sectors: clean water, environment, energy, healthcare, and food. Although most of these sectors are principally dominated by synthetic polymer systems, the emergence of natural polymer and hybrid natural-synthetic electrospun polymer systems offers particular advantages. Current scientific and materials engineering advancements have resulted in highly competitive nanofibre, electrospun products, offering credible solutions to real-world applications.

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“…The diameters of jute cellulose nanowhiskers was around 3~10 nm with high crystallinity (69.72%). Cao et al [36] also obtained spider-web-like nanoporous networks by simple directly immersion-drying method. The jute cellulose nanowhiskers (3~10 nm) deposited on the electrospun nanofibrous membrane (100~300nm), formed the spider-web-like nanoporous networks, which has potential useful for filter applications.…”

Section: Nano Cellulose Whiskersmentioning

confidence: 99%

Review of recent research in nano cellulose preparation and application from jute fibers

Duan¹,

Yu²

2016

Proceedings of the 2016 3rd International Conference on Materials Engineering, Manufacturing Technology and Control

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Abstract. Jute is the second most important fiber in the world, which is easy to grow on all types of soil from clay to sandy loam. The popularity of jute is attributable to its abundant and cheapness, and jute fiber is mainly used in the manufacture of coarse fabrics like bags, hessian, sacking, canvas and twines. Jute is rich in cellulose, which could be served as promising candidates for nano materials production. Nano cellulose features concerned its high strength and stiffness, renewability, low density, biodegradability, low thermal expansion coefficient and high aspect ratio. Fields of use of nanocellulose include reinforcement of nanocomposite materials, thickening agents, tissue engineering scaffolds, dry-strength additive for paper, filtration media, adsorbents, etc. This review summarizes progress in nanocellulose preparation and also discusses recent developments in nanocomposite fabrication based on jute fibers.

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Novel spider-web-like nanoporous networks based on jute cellulose nanowhiskers

Cited by 33 publications

References 25 publications

Recent Progress on the Fabrication of Ultrafine Polyamide-6 Based Nanofibers Via Electrospinning: A Topical Review

Recent Progress on the Fabrication of Ultrafine Polyamide-6 Based Nanofibers Via Electrospinning: A Topical Review

Electrospun Nanomaterials: Biotechnology, Food, Water, Environment, and Energy

Review of recent research in nano cellulose preparation and application from jute fibers

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