Sheena Reeves scite author profile

Sheena Reeves

4Publications

32Citation Statements Received

306Citation Statements Given

How they've been cited

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261

282

Affiliations

Prairie View A&M University, Oak Ridge National Laboratory, Materials Sciences (United States)

Publications

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Mechanisms Influencing Crystal Breakage Experiments in Stirred Vessels

Reeves

Hill

2012

Crystal Growth & Design

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Crystal breakage experiments in saturated solutions and nonsolvents often fail to accurately represent breakage in a suspension crystallizer because the saturated solution experiments have other mechanisms occurring, and the nonsolvent experiments have different particle dynamics and hydrodynamics. This research investigates NaCl crystal breakage in an aqueous saturated solution and in the nonsolvent acetonitrile at different magma densities and agitation rates to determine the significance of these effects. It is concluded that due to significant agglomeration in a saturated solution a nonsolvent should be used. The approach of performing experiments with both suspension fluids at the same magma density, and using the Zwietering correlation to adjust the agitation rate of the nonsolvent experiment for comparison with the saturated solution is shown to decrease the differences between the resulting crystal size distributions compared to operating both systems at the same agitation rate.

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Magnetic alignment of SWCNTs decorated with Fe3O4 to enhance mechanical properties of SC-15 epoxy

Malkina

Mahfuz

Sorge

et al. 2013

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We report significant improvement in mechanical properties of SC-15 epoxy when reinforced with decorated nanotubes and cured in a modest magnetic field. The chemical synthesis and field curing process is a low cost and relatively easy technique to impose strong magnetic anisotropy into the system without the need of a superconducting magnet. SWCNT(COOH)s were decorated with Fe3O4nanoparticles through a sonochemical oxidation process and then dispersed into SC-15 epoxy at 0.5 wt% loading. The admixture was cured for 6 hours in a magnetic field of 10 kOe followed by an additional 24 hours of post curing at room temperature. Control samples were prepared in a similar manner but without the application of the magnetic field. Mechanical tests performed on field-cured samples indicated that tensile strength and modulus increased by 62%and 40%. Most importantly, modulus of toughness, fracture strain, and modulus of resilience improved by 346%, 165%% and 170%, respectively. Such enhancement in mechanical properties was attributed to changes in polymer morphology, partial alignment of nanotubes in the field direction, and sliding at the polymer-nanotube interface. Detailed characterization of the system with XRD, TEM, DMA, and Magnetometry are described in the paper.

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Effect of zinc oxide nanoparticles synthesized from Carya illinoinensis leaf extract on growth and antioxidant properties of mustard (Brassica juncea)

et al. 2023

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BackgroundThe sustainability of crop production is impacted by climate change and land degradation, and the advanced application of nanotechnology is of paramount importance to overcome this challenge. The development of nanomaterials based on essential nutrients like zinc could serve as a basis for nanofertilizers and nanocomposite synthesis for broader agricultural applications and quality human nutrition. Therefore, this study aimed to synthesize zinc oxide nanoparticles (ZnO NPs) using pecan (Carya illinoinensis) leaf extract and investigate their effect on the growth, physiology, nutrient content, and antioxidant properties of mustard (Brassica juncea).MethodsThe ZnO NPs were characterized by UV-Vis spectrophotometry, Dynamic Light Scattering (DLS), X-ray diffractometer (XRD), Scanning Electron Microscopy (SEM), and Fourier Transform Infra-Red Spectroscopy (FTIR). Mustard plants were subjected to different concentrations of ZnONPs (0, 20, 40, 60, 80, 100 and 200 mg L-1) during the vegetative growth stage.ResultsThe UV-Vis spectra of ZnO NPs revealed the absorption maxima at 362 nm and FTIR identified numerous functional groups that are responsible for capping and stabilizing ZnO NPs. DLS analysis presented monodispersed ZnO NPs of 84.5 nm size and highly negative zeta potential (-22.4 mV). Overall, the application of ZnO NPs enhanced the growth, chlorophyll content (by 53 %), relative water content (by 46 %), shoot biomass, membrane stability (by 54 %) and net photosynthesis significantly in a dose-dependent manner. In addition, the supplement of the ZnO NPs augmented K, Fe, Zn and flavonoid contents as well as overcome the effect of reactive oxygen species by increasing antioxidant capacity in mustard leaves up to 97 %.ConclusionsIn conclusion, ZnO NPs can be potentially used as a plant growth stimulant and as a novel soil amendment for enhancing crop yields. Besides, the biofortification of B. juncea plants with ZnO NPs helps to improve the nutritional quality of the crop and perhaps potentiates its pharmaceutical effects.

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Effect of particle breakage conditions on child particle aspect ratio

Hill

Reeves

2019

Powder Technology

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Sheena Reeves

Mechanisms Influencing Crystal Breakage Experiments in Stirred Vessels

Magnetic alignment of SWCNTs decorated with Fe3O4 to enhance mechanical properties of SC-15 epoxy

Effect of zinc oxide nanoparticles synthesized from Carya illinoinensis leaf extract on growth and antioxidant properties of mustard (Brassica juncea)

Effect of particle breakage conditions on child particle aspect ratio

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