Together with the optical instrument manufacturer Zeiss, he developed the slit ultramicroscope.
2.
Such random motion is visible under ultramicroscopes and for bigger particles even under ordinary microscopes.
3.
In 1925 he was awarded the Nobel Prize in Chemistry for his research on colloids and the ultramicroscope.
4.
The ultramicroscope system can also be used to observe tiny nontransparent particles dispersed in a transparent solid or gel.
5.
So you'll never be able to use your eyes directly through some kind of ultramicroscope to see an atom.
6.
Zsigmondy further improved the ultramicroscope and presented the immersion ultramicroscope in 1912, allowing the observation of suspended nanoparticles in defined fluidic volumes.
7.
Zsigmondy further improved the ultramicroscope and presented the immersion ultramicroscope in 1912, allowing the observation of suspended nanoparticles in defined fluidic volumes.
8.
He used an ultramicroscope that employs a " dark field " method for seeing particles with sizes much less than light wavelength.
9.
In 1925, Zsigmondy received the Nobel Prize for Chemistry for his work on colloids and the methods he used, such as the ultramicroscope.
10.
The technique is used in conjunction with an ultramicroscope and a laser illumination unit that together allow small particles in liquid suspension to be visualized moving under Brownian motion.
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