X pert power

Manufactured by Malvern Panalytical

Sourced in Netherlands

The X'Pert Power is a state-of-the-art X-ray diffractometer designed for advanced materials analysis. It utilizes high-resolution X-ray technology to provide accurate and reliable data on the structural and compositional properties of a wide range of materials. The core function of the X'Pert Power is to perform X-ray diffraction analysis, enabling users to identify crystalline phases, determine lattice parameters, and quantify the composition of their samples.

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Lab products found in correlation

3 protocols using x pert power

Crystallinity Analysis of Jute Fibers

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The crystallinity index (CI) and crystallite sizes (CS) of raw and treated jute fibers were analyzed by X-ray diffractometry (X’Pert Power, PANalytical, Netherlands) with a scan range between 10° to 90° (2θ angle). The CI and CS were calculated by following equations:

CI = (1 - \frac{I_{a m}}{I_{002}}) \times 100 %

{CS}_{002} = \frac{0.89 λ}{β_{002} \cos θ}

where I₀₀₂ is the intensity of crystalline phase peak at around 22°, I_am is the intensity of the amorphous phase peak at around 16°, λ is the wavelength of the X-ray, β₀₀₂ is the full width half maxima, and θ is the angle of diffraction.

Wang X., Chang L., Shi X, & Wang L. (2019). Effect of Hot-Alkali Treatment on the Structure Composition of Jute Fabrics and Mechanical Properties of Laminated Composites. Materials, 12(9), 1386.

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Characterizing Jute Fabric Crystallinity

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The crystallinity index (CI) and crystallite sizes (CS) of modified and unmodified jute fabrics were characterized using X-ray diffractometry (X’Pert Power, PANalytical, Almelo, Netherlands). The scanning range was 10°–90°. And the CI and CS were calculated using Equations (1) and (2), respectively [22 (link)]:

CI = (1 - \frac{I_{a m}}{I_{002}}) \times 100 %,

{CS}_{002} = \frac{0.89 λ}{β_{002} \cos θ},

where I₀₀₂ and I_am are the intensity of the crystalline phase peak around 23° and the amorphous phase peak around 16°, respectively. λ (0.154 nm) is the wavelength of the X-ray, β₀₀₂ is the full width half maxima, and θ is the angle of diffraction.

Wang X., Wang L., Ji W., Hao Q., Zhang G, & Meng Q. (2019). Characterization of KH-560-Modified Jute Fabric/Epoxy Laminated Composites: Surface Structure, and Thermal and Mechanical Properties. Polymers, 11(5), 769.

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Crystalline Structure Characterization of Drug Delivery System

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The crystalline nature plays an important role in the stability, bioavailability, and solubility of a drug delivery system. Hence, the composition and crystalline structures of the samples were also characterized by XRD (X’Pert Power, Pan-alytical B.V., Netherlands) in the 2θ range of 5-90°.

Cui X., Li X., Xu Z., Guan X., Ma J., Ding D, & Zhang W. (2021). Fabrication and Characterization of Chitosan/Poly(Lactic-Co-glycolic Acid) Core-Shell Nanoparticles by Coaxial Electrospray Technology for Dual Delivery of Natamycin and Clotrimazole. Frontiers in Bioengineering and Biotechnology, 9, 635485.

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