Studies On Characterization Of Corn Cob Based Nanoparticles

doi:10.5185/amlett.2010.9164

Cited by 45 publications

(16 citation statements)

References 14 publications

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“…Such differences could be caused by the difference in the lignin type. The Scherrer's equation is usually used for calculating the mean size of the ordered domains (crystallite): d = 5A//fcos0, where d is the mean size of the ordered domains, B = dimensionless shape factor (value of 0.9 is used [28,29]), 2 = X-ray wavelength (0.154nm for Cu K-oc), and /? = full width at half maximum (FWHM) [30], To measure the FWHM, instru mental broadening effect should be subtracted from the data.…”

Section: Resultsmentioning

confidence: 99%

X-Ray Diffraction Analysis of Kraft Lignins and Lignin-Derived Carbon Nanofibers

Goudarzi

Lin

2014

Journal of Nanotechnology in Engineering and Medicine

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Lignin is a renewable material and it is abundantly available as low priced industrial residue. Lignin-based carbon fibers are economically attractive and sustainable. In addi tion, remarkably oxidized molecule o f the lignin decreases the required time and temper ature o f the thermostabilization process compared to other carbon fiber precursors such as polyacrylonitrile (PAN); and thus, decreases the processing cost o f carbon fiber pro duction. The fraction 4 o f softwood Kraft lignin (SKL-F4) was previously shown to be spinnable via electrospinning to produce carbon nanofibers. In this paper, we character ized different Kraft lignin powders through X-ray diffraction (XRD) analysis to measure the mean size o f the ordered domains in different fractionations o f softwood and hard wood samples. According to our results, SKL-F4 has largest ordered domains among SKLs and highest hydroxyl content according to Fourier transform infrared (FTIR) anal ysis. In addition, variations in the XRD patterns during carbon nanofiber formation were studied and the peak fo r (101) plane in graphite was observed in the carbon nanofiber carbonized at 1000°C.

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Section: Resultsmentioning

confidence: 99%

X-Ray Diffraction Analysis of Kraft Lignins and Lignin-Derived Carbon Nanofibers

Goudarzi

Lin

2014

Journal of Nanotechnology in Engineering and Medicine

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“…Dried powder was further separated by 270 mesh screens. By this method, an average particle size was approximately equal to 22 nm which was confirmed by TEM [37]. , checked the four pulse crop plants and three cereal crop plants and compared their extracellular synthesis of metallic silver nanoparticles.…”

Section: Leaf Extracts Assisted Preparation C Infundibuliformismentioning

confidence: 79%

Devastated Crops: Multifunctional Efficacy for the Production of Nanoparticles

Madhumitha

Roopan

2013

Journal of Nanomaterials

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Integration of green chemistry principles to nanotechnology is one of the key issues in nanoscience research. Biological methods were used to synthesize metal and metal oxide nanoparticles of specific shape and size since they enhance the properties of nanoparticles in greener route. Plant-mediated methods devoid the use of toxic chemicals in the synthetic protocols which has adverse effects on the environment. Owing to the rich biodiversity of plants and their potential secondary constituents, plants and plant parts have gained attention in recent years as medium for nanoparticles' synthesis. In this review, we present the current status of nanoparticles synthesis using devastated crops.

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“…The synthesis procedure used in the current study afforded precise control of the mean diameter of cellulose beads within the ranges of 57 ± 2.3 nm to 200 ± 2.3 nm. In contrast, highly agglomerated cellulose nCBs were reported by Kumar and coworkers [44]. Our synthesis procedure had also avoided the usage of highly corrosive sulfuric acid [35].…”

Section: Fabrication Of Nanosized Cellulose Beads (Ncbs)mentioning

confidence: 94%

Optimizing Delivery Characteristics of Curcumin as a Model Drug via Tailoring Mean Diameter Ranges of Cellulose Beads

Voon

Pang

Chin

2017

International Journal of Polymer Science

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Spherical cellulose beads with tailored mean diameter between micrometer (20-80 m) and nanometer (40-200 nm) ranges were fabricated from regenerated cellulose of paper wastes via water-in-oil (W/O) microemulsion and nanoprecipitation processes, respectively. The mean diameter ranges of cellulose beads were precisely controlled via modulating fabrication parameters such as stirring speed, surfactant concentration, cellulose concentration, and reaction temperature. By tailoring their mean diameter ranges and using curcumin as a model drug, cellulose beads with enhanced loading capacities and optimized release kinetic profiles of curcumin were fabricated.

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Studies On Characterization Of Corn Cob Based Nanoparticles

Cited by 45 publications

References 14 publications

X-Ray Diffraction Analysis of Kraft Lignins and Lignin-Derived Carbon Nanofibers

X-Ray Diffraction Analysis of Kraft Lignins and Lignin-Derived Carbon Nanofibers

Devastated Crops: Multifunctional Efficacy for the Production of Nanoparticles

Optimizing Delivery Characteristics of Curcumin as a Model Drug via Tailoring Mean Diameter Ranges of Cellulose Beads

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