The laboratory of low-carbon chemical technologies

Where the air is less dense. This facilitates the flow of current. Accordingly, for the next experiments at sea level, an even more powerful laser will be requir. If improv, this technology could help protect infrastructure such as airports and nuclear power plants in the future. However, in the near future it is unlikely to be implement everywhere, as it will require significant energy costs. Scientists from Novosibirsk are actively working on the synthesis of emitters – organic semiconductor molecules. They are widely us for the production of Ls, and micine. This material continues the series about laboratories, research, development and projects of regional universities from the Priority 2030 list.

Light transistors and sensors for electronics

You can also read about the project of Saratov scientists to Switzerland Phone Numbers List manage sleep functions and the developments of Tomsk scientists in the field of modern implantology. Most likely, you are looking at an AMOL display – a product of organic electronics (from the English abbreviation Active Matrix Organic Light-Emitting Diode). In it, each pixel is a small L that consists of many layers, and one of them is an organic semiconductor that emits bright light when a current is pass through it. of the Faculty of Natural Sciences of Novosibirsk State University is engag in the development and study of such semiconductors.

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How Ls are made Emitters are organic semiconductor BT Lists molecules that emit light in different parts of the color spectrum. To synthesize such a luminescent molecule, Novosibirsk scientists are simultaneously conducting fundamental and practical research. From computer model to L One part of the scientific team is engag in computer simulations to identify potentially suitable compounds. The other creates amazing molecules with her own hands, using the “secret magic” of fine organic synthesis. A third of the employees, using modern devices, determines their structural, optical and semiconductor properties.

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