We determined the spatial resolution of the new very low energy transmission electron microscopy technique called eV-TEM [1] and used it to image gold nanoparticles deposited on graphene in order...Show moreWe determined the spatial resolution of the new very low energy transmission electron microscopy technique called eV-TEM [1] and used it to image gold nanoparticles deposited on graphene in order to determine whether it is possible to image for example DNA and proteins with low energy electrons. By transferring graphene to a flat grid with small circular holes in it we created new samples with flatter, less wrinkled graphene that make performing eV-TEM easurements on graphene easier and increase their quality. We improved the alignment of the imaging system of the microscope and determined the resolution of eV-TEM using the new samples to image graphene. We found a method to deposit 10nm gold nanoparticles on graphene suitable for eV-TEM measurements and a method to deposit ferritin on graphene that we should be able to image as well. We conclude that the spatial resolution of the current set-up of eV-TEM is 10nm and that it is possible to image gold nanoparticles deposited on graphene with eV-TEM.Show less