Zetasizer nano zs90 particle analyzer

Manufactured by Malvern Panalytical

Sourced in United Kingdom

The Zetasizer Nano ZS90 is a particle analyzer that uses dynamic light scattering (DLS) technology to measure the size and size distribution of particles in the nanometer to micrometer range. It provides accurate and reliable measurements of particle hydrodynamic size, zeta potential, and molecular weight.

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Lab products found in correlation

Jem 2100f field emission tem, by JEOL (1 mentions)

Close spelling variants of this product

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5 protocols using zetasizer nano zs90 particle analyzer

Nanoemulsion Physicochemical Characterization

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Particle size, PDI, and zeta potential measurements of nanoemulsion were performed using a Malvern Zetasizer Nano ZS90 Particle Analyzer (λ = 633 nm, material/dispersant RI 1.590/1.330). Samples were prepared by diluting a sample for eighty folds using double distilled water at pH 7.0. Each sample was repeated three times to obtain the mean value.

He J., Shi H., Huang S., Han L., Zhang W, & Zhong Q. (2018). Core-Shell Nanoencapsulation of α-Tocopherol by Blending Sodium Oleate and Rebaudioside A: Preparation, Characterization, and Antioxidant Activity. Molecules, 23(12), 3183.

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Synthesis and Characterization of Al2O3-Coated Fe3O4 Nanoparticles

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Fe₃O₄ nanoparticles were synthesized using the polyol method previously described by Ammar et al. [19 ,20 (link)]. Briefly, 1,2-propanediol solution containing 8 mM iron (III) chloride, 24 mM sodium acetate, and 2 mL water was refluxed for 15 h. The nanoparticles were extracted from solution with a neodymium magnet, washed with water and dispersed for 24 h in a solution of 20 mM Al(NO₃)₃ and 100 mM KNO₃, adjusted to pH 7. The Al₂O₃ coated Fe₃O₄ nanoparticles were rinsed and briefly stored in PBMCA buffer (pH 7.4) until cell coating experiments were performed. Characterization of the particles was achieved with a JEOL JEM-2100F Field Emission TEM (JEOL USA, Inc., Peabody, MA) with scanning TEM and Oxford energy dispersive x-ray spectrometry capabilities, and a Zetasizer Nano ZS90 particle analyzer (Malvern Instruments Ltd, Worcestershire WR14 1XZ, UK). Analysis of the particle size showed an average diameter of 17 ± 6 nm. The surface charge was determined as a positive potential of 64 ± 3 mV. To further confirm the presence of the Al₂O₃ functional group, an elemental analysis was performed using an EDX measurement (Supporting Information Fig. 1).

Choksawangkarn W., Graham L.M., Burke M., Lee S.B., Ostrand-Rosenberg S., Fenselau C, & Edwards N.J. (2016). Peptide-based systems analysis of inflammation induced myeloid-derived suppressor cells reveals diverse signaling pathways. Proteomics, 16(13), 1881-1888.

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Physicochemical Characterization of SLN

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The Z-average mean diameter, PDI, and zeta-potential measurements of the prepared SLN dispersions were performed using a Malvern Zetasizer Nano ZS90 Particle Analyzer (Malvern Instruments Ltd., Worcestershire, UK). The laser wavelength was 633 nm, and the material/dispersant reflective index was 1.590/1.330. Samples were prepared by diluting the SLN dispersions eighty-fold using double distilled water at pH 7. Each sample was repeated three times to obtain the mean value.

Shi H., Huang S., He J., Han L., Zhang W, & Zhong Q. (2019). 1-Laurin-3-Palmitin as a Novel Matrix of Solid Lipid Particles: Higher Loading Capacity of Thymol and Better Stability of Dispersions Than Those of Glyceryl Monostearate and Glyceryl Tripalmitate. Nanomaterials, 9(4), 489.

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Formulation of MFS-Alginate Nanoparticles

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A formulation of MFS encapsulated in alginate nanoparticles (MFS-AN) was prepared by emulsification using the external gelation method, as previously described (Ishida et al., 2017 ; Spadari et al., 2019 (link)). Briefly, 3 mg MFS were dissolved in 1% (w/v) sodium alginate aqueous solution and mixed with 3% (w/v) sorbitan monooleate (SPAN 80) in sunflower oil to form an emulsion. Induction of nanoparticle formation was triggered by dripping 0.2 M CaCl₂ with 0.5% polaxamer into the emulsion, under constant stirring. Then, the formulation was centrifuged and resuspended in 10% trehalose before freeze-drying, to obtain a fine powder (Ishida et al., 2017 ; Spadari et al., 2019 (link)). The mean size (Dz), polidispersion (Pdi), and zeta potential (ζ) of nanoparticles were measured in a Zetasizer NanoZS90 particle analyzer (Malvern Instruments, Worcestershire, United Kingdom). The lyophilized powder showed physical-chemical stability and in vitro antifungal activity for up to 30 days (Ishida et al., 2017 ; Spadari et al., 2019 (link)). For the in vivo assay MFS-AN (2% MFS) was incorporated in 1% (w/v) alginate gel.

de Bastiani F.W., Spadari C.D., de Matos J.K., Salata G.C., Lopes L.B, & Ishida K. (2020). Nanocarriers Provide Sustained Antifungal Activity for Amphotericin B and Miltefosine in the Topical Treatment of Murine Vaginal Candidiasis. Frontiers in Microbiology, 10, 2976.

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Nanoparticle Characterization by DLS

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The mean diameter and polydispersity index (PDI) were determined using the dynamic light scattering technique and zeta potential by microelectrophoresis. These measurements were performed at 25°C by diluting nanoparticle suspensions with purified water using a Zetasizer Nano ZS 90 particle analyzer (Malvern) with a fixed angle of 90 degrees. The size distribution was given by the polydispersity index. Results were expressed as the average of three determinations [24 , 25 ].

Charlie-Silva I., Feitosa N.M., Gomes J.M., Hoyos D.C., Mattioli C.C., Eto S.F., Fernandes D.C., Belo M.A., Silva J.D., de Barros A.L., Corrêa Junior J.D., de Menezes G.B., Fukushima H.C., Castro T.F., Borra R.C., Pierezan F., de Melo N.F, & Fraceto L.F. (2020). Potential of mucoadhesive nanocapsules in drug release and toxicology in zebrafish. PLoS ONE, 15(9), e0238823.

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