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Em10c 80 kv transmission

Manufactured by Zeiss
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Sourced in Germany

The EM10C-80 KV transmission is a high-performance transmission electron microscope (TEM) designed for advanced imaging and analysis applications. It operates at an accelerating voltage of 80 kV and offers a range of advanced features to support a variety of research and industrial applications. The core function of this equipment is to provide high-resolution, detailed imaging of microscopic samples.

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Lab products found in correlation

D5000, by Siemens (1 mentions) Ls55 luminescence spectrophotometer, by PerkinElmer (1 mentions) T 70 uv vis spectrophotometer, by PG Instruments (1 mentions)

2 protocols using em10c 80 kv transmission

1

Characterization of RADA-16 Nanostructures

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Thirty microliters of RADA-16( samples (2.5 and 0.5 mg.mL−1 samples of RADA-16I) were applied to a 300-mesh formvar/carbon-coated nickel grid and after 2 min, stained with 3% uranyl acetate for 2 minutes, rinsed, and air-dried. Images were taken using Zeiss-EM10C-80 KV transmission electron microscope (Oberkochen, Germany).
Fouani M.H., Nikkhah M, & Mowla J. (2019). Straightforward and Cost-Effective Production of RADA-16I Peptide in Escherichia coli. Iranian Journal of Biotechnology, 17(2), e2125.
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2

Characterization of ZnO Nanoplates

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The morphology of products was studied via a Tscan model MIRA3 field emission scanning electron microscope with the accelerating voltage of 10 kV. TEM images were obtained on a Zeiss-EM10C-80KV transmission electron microscope with an accelerating voltage of 80 kV. UV–Vis absorption spectra were recorded employing a PG instruments Ltd. T70 UV/Vis spectrophotometer. Photoluminescence measurements were carried out by a Perkin Elmer LS55 luminescence spectrophotometer.
The crystalline quality of the as-prepared ZnO nanoplates was analyzed by X-ray diffraction on a Siemens D5000 using a Cu-kα line of wavelength λ = 1.541 Å at the scanning rate of 1°/min.
Dolatyari M., Alidoust F., Zarghami A., Rostami A., Mirtaheri P, & Mirtagioglu H. (2022). High-Resolution Color Transparent Display Using Superimposed Quantum Dots. Nanomaterials, 12(9), 1423.
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