All of our new brochures feature a cover image which has been made available by our customers. Why did we select them?
The image was acquired just before the launch of the improved heating chip. The sample is a gold-palladium nanoparticle imaged at 1000 °C on a Thermo Scientific Titan equipped with an image corrector and our Wildfire in situ heating system. We selected this image because it shows that the native resolution and drift rate of your microscope are not affected at all by the extreme temperatures that are possible with the DENSsolutions Wildfire system.
Courtesy of EMAT, Antwerp (BE)
Flexoelectrics: the sample imaged is Bi1/2Na1/2TiO3 – SrTiO3 (aka BNT-ST). It went through a thermal treatment directly on the chip in order to obtain the desired properties, then it was imaged at 800 °C with electric fields ranging from -220 kV/cm to +220 kV/cm. Images were acquired using the Lightning HB+ on a JEOL ARM. The image was chosen because it explains why we need to have the flexibility to reach extreme conditions, both in terms of temperature and electric fields. The sample showed, unexpectedly, nano-domains at temperatures much higher than previously reportedl.
Courtesy of Leopoldo Molina-Luna, TU Darmstadt (DE)
The image shows a Pd particle imaged system at 500 C in 1 bar of He/CO. The image was recorded with our Climate G+ on a Thermo Scientific Titan. Although having 1 bar inside the Nano-Reactor may lead to think that the native resolution of your microscope will be affected, the image demonstrates an information transfer of 55 pm. Thus, the Climate enables users to observe the finest dynamical structural changes in catalytic processes..
Courtesy of Prof. Wang, Zheijang University (CN)
The image captured from a video shows a protein, ferritin, imaged with our in situ liquid solution on a JEOL 2110F equipped with a direct electron detector camera. The protein has an outer diameter of 12 nm and we can image it with a resolution not too far from 1 nm. We can observe brownian motion, rotation, agglomeration and fusion, thanks to the stability and reliability of our in situ liquid solution.
Courtesy of Prof. Battaglia, UCL (UK)