Relevant bibliographies by topics / Binary Nanoparticle Suspensions

Academic literature on the topic 'Binary Nanoparticle Suspensions'

Author: Grafiati
Published: 6 September 2023

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Journal articles on the topic "Binary Nanoparticle Suspensions"

1

Agrawal, Akanksha, Hsiu-Yu Yu, Samanvaya Srivastava, Snehashis Choudhury, Suresh Narayanan, and Lynden A. Archer. "Dynamics and yielding of binary self-suspended nanoparticle fluids." Soft Matter 11, no. 26 (2015): 5224–34. http://dx.doi.org/10.1039/c5sm00639b.

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2

Kumnorkaew, Pisist, and James F. Gilchrist. "Effect of Nanoparticle Concentration on the Convective Deposition of Binary Suspensions." Langmuir 25, no. 11 (June 2, 2009): 6070–75. http://dx.doi.org/10.1021/la804209m.

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3

Russell, Jennifer L., Grace H. Noel, Joseph M. Warren, Ngoc-Lan L. Tran, and Thomas E. Mallouk. "Binary Colloidal Crystal Films Grown by Vertical Evaporation of Silica Nanoparticle Suspensions." Langmuir 33, no. 39 (September 19, 2017): 10366–73. http://dx.doi.org/10.1021/acs.langmuir.7b02553.

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4

Cattinari, Gianluca, Karine Steenkeste, Sandrine Lévêque-Fort, Clément Cabriel, Ariane Deniset-Besseau, Alexis Canette, Julian Oberdisse, Matthieu Gallopin, Marc Couty, and Marie-Pierre Fontaine-Aupart. "Nanostructural Evolution of Natural Rubber/Silica Nanoparticle Coagulation from Binary Colloidal Suspensions to Composites: Implications for Tire Materials." ACS Applied Nano Materials 4, no. 7 (June 17, 2021): 6722–33. http://dx.doi.org/10.1021/acsanm.1c00725.

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5

Yuan, Teng, Jian Yin, Yingling Liu, Weiping Tu, and Zhuohong Yang. "Micro/Nanoscale Structured Superhydrophilic and Underwater Superoleophobic Hybrid-Coated Mesh for High-Efficiency Oil/Water Separation." Polymers 12, no. 6 (June 19, 2020): 1378. http://dx.doi.org/10.3390/polym12061378.

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A novel micro/nanoscale rough structured superhydrophilic hybrid-coated mesh that shows underwater superoleophobic behavior is fabricated by spray casting or dipping nanoparticle–polymer suspensions on stainless steel mesh substrates. Water droplets can spread over the mesh completely; meanwhile, oil droplets can roll off the mesh at low tilt angles without any penetration. Besides overcoming the oil-fouling problem of many superhydrophilic coatings, this superhydrophilic and underwater superoleophobic mesh can be used to separate oil and water. The simple method used here to prepare the organic–inorganic hybrid coatings successfully produced controllable micro-nano binary roughness and also achieved a rough topography of micro-nano binary structure by controlling the content of inorganic particles. The mechanism of oil–water separation by the superhydrophilic and superoleophobic membrane is rationalized by considering capillary mechanics. Tetraethyl orathosilicate (TEOS) as a base was used to prepare the nano-SiO2 solution as a nano-dopant through a sol-gel process, while polyvinyl alcohol (PVA) was used as the film binder and glutaraldehyde as the cross-linking agent; the mixture was dip-coated on the surface of 300-mesh stainless steel mesh to form superhydrophilic and underwater superoleophobic film. Properties of nano-SiO2 represented by infrared spectroscopy and surface topography of the film observed under scanning electron microscope (SEM) indicated that the film surface had a coarse micro–nano binary structure; the effect of nano-SiO2 doping amount on the film’s surface topography and the effect of such surface topography on hydrophilicity of the film were studied; contact angle of water on such surface was tested as 0° by the surface contact angle tester and spread quickly; the underwater contact angle to oil was 158°, showing superhydrophilic and underwater superoleophobic properties. The effect of the dosing amount of cross-linking agent to the waterproof swelling property and the permeate flux of the film were studied; the oil–water separation effect of the film to oil–water suspension and oil–water emulsion was studied too, and in both cases the separation efficiency reached 99%, which finally reduced the oil content to be lower than 50 mg/L. The effect of filtration times to permeate flux was studied, and it was found that the more hydrophilic the film was, the stronger the stain resistance would be, and the permeate flux would gradually decrease along with the increase of filtration times.
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6

Lu, Ziyang, Amgad Rezk, Fernando Jativa, Leslie Yeo, and Xuehua Zhang. "Dissolution dynamics of a suspension droplet in a binary solution for controlled nanoparticle assembly." Nanoscale 9, no. 36 (2017): 13441–48. http://dx.doi.org/10.1039/c7nr02704d.

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A sessile droplet comprising of a nanoparticle aqueous suspension in a binary solution exhibits interesting dissolution dynamics, which may be explored for the formation of toroidal or spherical nanocolloidal assemblies with highly ordered particle arrangement.
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7

Wang, Han, Amrita Yasin, Nathaniel Quitoriano, and George Demopoulos. "Aqueous-based Binary Sulfide Nanoparticle Inks for Cu2ZnSnS4 Thin Films Stabilized with Tin(IV) Chalcogenide Complexes." Nanomaterials 9, no. 10 (September 26, 2019): 1382. http://dx.doi.org/10.3390/nano9101382.

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Cu2ZnSnS4(CZTS) is a promising semiconductor material for photovoltaic applications,with excellent optical and electronic properties while boasting a nontoxic, inexpensive, andabundant elemental composition. Previous high‐quality CZTS thin films often required eithervacuum‐based deposition processes or the use of organic ligands/solvents for ink formulation,which are associated with various issues regarding performance or economic feasibility. To addressthese issues, an alternative method for depositing CZTS thin films using an aqueous‐basednanoparticle suspension is demonstrated in this work. Nanoparticles of constituent binary sulfides(CuxS and ZnS) are stabilized in an ink using tin(IV)‐based, metal chalcogenide complexes such as[Sn2S6]4‐. This research paper provides a systematic study of the nanoparticle synthesis and inkformulation via the enabling role of the tin chalcogenide complexing power, the deposition of highqualityCZTS thin films via spin coating and annealing under sulfur vapor atmosphere, theirstructural characterization in terms of nanocrystal phase, morphology, microstructure, anddensification, and their resultant optoelectronic properties.
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8

Shanmugapriya, M., R. Sundareswaran, and P. Senthil Kumar. "Heat and Mass Transfer Enhancement of MHD Hybrid Nanofluid Flow in the Presence of Activation Energy." International Journal of Chemical Engineering 2021 (August 24, 2021): 1–12. http://dx.doi.org/10.1155/2021/9473226.

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In this study, water is apprehended as conventional fluid with the suspension of two types of hybrid nanoparticles, namely, single-walled CNTs (SWCNTs) and multiwalled CNTs (MWCNTs). The influence of a magnetic field, thermal radiation, and activation energy with binary chemical reaction has been added to better examine the fine point of hybrid nanofluid flow. The mathematical structure regarding the physical model for hybrid nanofluid is established and then the similarity variables are induced to transmute the leading PDEs into nonlinear ODEs. These equations were solved using the shooting technique together with RKF 4-5th order for various values of the governing parameters numerically. The results of prominent parameters were manifested through graphs and tables. The results indicate that the hybrid nanofluid SWCNT − MWCNT / water is fully adequate in cooling and heating compared to other hybrid nanofluids. In addition, the rise in the value of activation energy E upsurges the nanoparticle transfer rate of hybrid nanofluid.
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9

Kamran, Mahwish, Mir Azam Khan, Muhammad Shafique, Ghallab Alotaibi, Abdulaziz Al Mouslem, Maqsood Rehman, Muhammad Asghar Khan, Abdullah, and Sumaira Gul. "Formulation Design, Characterization and In-Vivo Assessment of Cefixime Loaded Binary Solid Lipid Nanoparticles to Enhance Oral Bioavailability." Journal of Biomedical Nanotechnology 18, no. 4 (April 1, 2022): 1215–26. http://dx.doi.org/10.1166/jbn.2022.3313.

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Cefixime; widely employed cephalosporin antibiotic is unfortunately coupled to poor water solubility with resultant low oral bioavailability issues. To solve this problem micro-emulsion technique was used to fabricate binary SLNs using blend of solid and liquid lipids, surfactant as well as co-surfactant. The optimized nano suspension was characterized followed by modification to solidified dosage form. During characterization, optimized nano-suspension (CFX-4) produced particle size 189±2.1 nm with PDI 0.310±0.02 as well as −33.9±2 mV zeta potential. Scanning electron microscopy (SEM) presented nearly identical and spherical shaped particles. Differential scanning calorimetry and X-ray powder diffraction analysis ascertained decrease in drug’s crystallinity. In-vitro release of drug pursued zero-order characteristics and demonstrated non-fickian pattern of diffusion. The freeze dried nano suspension (CFX-4) was transformed to capsule dosage form to perform comparison based In-Vivo studies. In-Vivo evaluation corresponded to 2.20-fold and 2.11-fold enhancement in relative bioavailability of CFX nano-formulation (CFX-4) as well as the prepared capsules respectively in contrast to the commercialized product (Cefiget®). In general; the obtained results substantiated superior oral bioavailability along with sustained pattern of drug release for CFX loaded binary nano particles. Thus, binary SLNs could be employed as a resourceful drug carrier for oral CFX delivery.
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10

Mo, Songping, Zhuowei Liu, Xiao Yuan, Ying Chen, Lisi Jia, Zhi Yang, Tao Yin, and Zhengdong Cheng. "Synthesis and Comparative Study on Dispersion Stability of Binary Suspensions of Mixed and Composite Nanoparticles." Nanoscience and Nanotechnology Letters 9, no. 10 (October 1, 2017): 1505–13. http://dx.doi.org/10.1166/nnl.2017.2508.

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