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Top view of the ruthenium tris-bipyridine light-emitting device created by Cornell researchers. The ruthenium metal complex is represented by red spheres, and counter ions are represented by green spheres. The material is sandwiched between two gold electrodes. Also visible is the probe of the electron force microscope used to measure the electric field of the device. Source: Cornell Universityhttps://www.led-professional.com/media/technology_light-generation_researchers-shed-light-on-light-emitting-nanodevice-a-promise-for-light-emitting-flexible-semiconductors_co_rut_tris_bipyr-jpg/viewhttps://www.led-professional.com/media/technology_light-generation_researchers-shed-light-on-light-emitting-nanodevice-a-promise-for-light-emitting-flexible-semiconductors_co_rut_tris_bipyr-jpg/@@images/image-1200-c2463b19b6a4b308291a2df1f5995636.jpeg
Top view of the ruthenium tris-bipyridine light-emitting device created by Cornell researchers. The ruthenium metal complex is represented by red spheres, and counter ions are represented by green spheres. The material is sandwiched between two gold electrodes. Also visible is the probe of the electron force microscope used to measure the electric field of the device. Source: Cornell University
