Xl30 field

Manufactured by Philips

The XL30 Field is a laboratory equipment product from Philips. It is designed to perform basic functions within a laboratory setting. No further details are available without the risk of extrapolation or bias.

Automatically generated - may contain errors

Lab products found in correlation

Panalytical empyrean diffractometer, by Malvern Panalytical (1 mentions)

Spelling variants of this product

XL30 Field Emission SEM (9 citations) XL30 field emission scanning electron microscope (5 citations) XL30 Field Emission Gun Scanning Electron Microscope (3 citations) XL30 Field-Emission Environmental SEM (2 citations) XL30 Field-Emission Environmental Scanning Electron Microscope (2 citations)

3 protocols using xl30 field

Scanning Electron Microscopy of Tibia

Check if the same lab product or an alternative is used in the 5 most similar protocols

We embedded tibia samples in MMA, and acid-etched the polished surface with 37% phosphoric acid for 2–10 s, washed twice with water, followed by 5% sodium hypochlorite for 5 min, and washed again in water. We coated the air-dried samples with gold and palladium, and examined by FEI/Philips XL30 Field emission environmental SEM according to previously described protocol.^{21 (link)}

Dussold C., Gerber C., White S., Wang X., Qi L., Francis C., Capella M., Courbon G., Wang J., Li C., Feng J.Q., Isakova T., Wolf M., David V, & Martin A. (2019). DMP1 prevents osteocyte alterations, FGF23 elevation and left ventricular hypertrophy in mice with chronic kidney disease. Bone Research, 7, 12.

+ Open protocol

+ Expand

Characterization of Ceramic Powders and Densified Samples

Check if the same lab product or an alternative is used in the 5 most similar protocols

The powders and densified ceramics were characterized using XRD using Cu Kα₁ (λ = 1.54058 Å) radiation on a PANalytical Empyrean Diffractometer (PANalytical, Almelo, The Netherlands) using a step size of 2θ = 0.005°. Published standards were used for comparison: Nd₂O₃ (ICSD#26867) and α-Al₂O₃ (ICSD#:63647).
The AGS of the densified ceramics were obtained from fracture surfaces by measuring >300 grains in multiple micrographs at random locations. The fractured surface was sputter coated with a thin film of Pt/Pd before examination with a Phillips XL30 field emission scanning electron microscope. EDS mapping was performed using a Titan Themis 399 Scanning-TEM (STEM). The TEM specimen was prepared using a gallium focused ion beam (FIB) and attached to a copper TEM grid using a Pt FIB.

Penilla E.H., Devia-Cruz L.F., Duarte M.A., Hardin C.L., Kodera Y, & Garay J.E. (2018). Gain in polycrystalline Nd-doped alumina: leveraging length scales to create a new class of high-energy, short pulse, tunable laser materials. Light, Science & Applications, 7, 33.

+ Open protocol

+ Expand

Solvothermal Synthesis of Fe3O4 Nanoparticles

Check if the same lab product or an alternative is used in the 5 most similar protocols

Ferromagnetic nanoparticles (MNPs) were prepared and used as catalysts in these experiments. The Fe₃O₄ MNPs were synthesized in one-step in a solvothermal system by combining FeCl₃ and NaAc in ethylene glycol. Briefly, 0.82 g of FeCl₃ was dissolved in 40 ml of ethylene glycol to form a clear solution. Then, 3.6 g of NaAc was added to the solution with vigorous stirring for 30 min. The mixture was then transferred to a 50 ml teflon-lined stainless-steel autoclave and left to react at 200 °C for 12 h. After the autoclave cooled to room temperature, the black precipitate was collected, rinsed several times using ethanol and then dried at 60°C. The synthesized nanoparticles were characterized using scanning electron microscopy (SEM; Philips XL-30 field, 15 kV). The peroxidase-like activity was tested in a mixture of 500µl NaAc buffer (0.1M, pH 4.5) containing 20µg MNP, 0.3% H₂O₂ and 100µg TMB. The blue color produced was recorded with a spectrophotometer at 652nm.

Gao L., Giglio K.M., Nelson J.L., Sondermann H, & Travis A.J. (2014). Ferromagnetic nanoparticles with peroxidase-like activity enhance the cleavage of biological macromolecules for biofilm elimination. Nanoscale, 6(5), 2588-2593.

+ Open protocol

+ Expand

About PubCompare

Our mission is to provide scientists with the largest repository of trustworthy protocols and intelligent analytical tools, thereby offering them extensive information to design robust protocols aimed at minimizing the risk of failures.

We believe that the most crucial aspect is to grant scientists access to a wide range of reliable sources and new useful tools that surpass human capabilities.

However, we trust in allowing scientists to determine how to construct their own protocols based on this information, as they are the experts in their field.

Ready to get started?

Revolutionizing how scientists
search and build protocols!