Cm12 tem microscope

Manufactured by Philips

The Philips CM12 TEM (Transmission Electron Microscope) is a high-performance laboratory instrument designed for advanced materials analysis. It provides a core function of enabling the observation and analysis of samples at the nanometer scale, allowing users to study the microstructure and composition of a wide range of materials.

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Bx 60 optical microscope, by Olympus (1 mentions)

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CM12 TEM (47 citations) CM12 microscope (24 citations)

2 protocols using cm12 tem microscope

Ultrastructural Analysis of SCC-15 Cells

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SCC-15 cells (2 ×10⁵) were plated onto 4 well glass chambers coated with TNC:FN1 and treated with 2 µM TBG-siRNA. Following fixation and mounting, sections were lead-stained and examined using Phillips CM12 TEM microscope (45,000×).

Unger G.M., Kren B.T., Korman V.L., Kimbrough T.G., Vogel R.I., Ondrey F.G., Trembley J.H, & Ahmed K. (2014). Mechanism and efficacy of sub-50 nm tenfibgen nanocapsules for cancer cell-directed delivery of anti-CK2 RNAi to primary and metastatic squamous cell carcinoma. Molecular cancer therapeutics, 13(8), 2018-2029.

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Characterization of Carbon Nanotubes

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To assess the morphology, structure, and presence of synthesis by-products as well as the diameter and length distributions of the different CNT, samples were observed using optical (Olympus BX60 optical microscope coupled to a color view digital camera, Olympus Corporation, Japan), scanning electron (SEM; Carl Zeiss Ultra 55, field emission gun, Carl Zeiss, Germany) and transmission electron (TEM; Philips CM12 TEM microscope, Philips Research, The Netherlands) microscopes. The morphology and thickness of the CNT precursor carpets were investigated by SEM on sections of aligned CNT carpets fixed on a SEM sample holder with a carbon adhesive tape. To perform TEM analysis, CNT powders were dispersed in ethanol and placed in ultrasonic bath for 1 min (this duration has been chosen to prevent from the introduction of any supplementary morphological/structural modifications). One droplet of this suspension was then deposited on a Cu grid covered with thin carbon film, and grids were observed at 120 kV.

Landry M., Pinault M., Tchankouo S., Charon É., Ridoux A., Boczkowski J., Mayne-L’Hermite M, & Lanone S. (2016). Early signs of multi-walled carbon nanotbues degradation in macrophages, via an intracellular pH-dependent biological mechanism; importance of length and functionalization. Particle and Fibre Toxicology, 13, 61.

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