 We have managed to fabricate very tiny structures, the dimension of those structures is 500 less than the thickness of the human hair. Those magic structures are capable to change the intensity of the light, change the shape of the light and at the same time change the color of the light. Our eyes are capable to see objects only in the visible spectrum. If we can fabricate an array of other nanostructures on flat surfaces like glass, at the end of the day we will be able to convert the invisible light in the nighttime or in dark areas to the visible light which finally help us to see the objects in very dark environments. These new nanocrystals can be used for various applications like for example converting light for night vision, also creating security holograms like in our banknotes as well as imaging application and visible displays. In order to measure the tiny amount of light coming from our nanostructures we build this setup, it's a complicated one but we need it to do like that because we need to have a lot of control in every detail of our experiment. We had to overcome three important challenges, the first one is the fabrication of these devices on glass substrate, the second one is measuring them or measuring the conversion of the color, the changes of the colors from invisible to visible and the third one was performing extensive numerical simulations in order to understand the physics behind the operational device. In order to realize this breakthrough research we got very great support not only from the physicists from Australia National University but also from top physicists overseas.