Scientists at the National University of Singapore have developed energy-saving ultra-thin light-emitting diodes (Llight Emitting Diode, LED), which is expected to be used in the next generation of communication technology. The team used extremely thin insulators to greatly reduce the current required to trigger the LED light, which is 10,000 times less current than the two-dimensional semiconductor LED. However,
the electro-optical effect only converts part of the current into light, and most of it is converted into heat dissipation. And indicate ’;from’;, unauthorized reprinting, reprinting out of chapter and other acts, this website will be held for legal responsibility! E-Mail:service@ledinside. Studies have shown that an insulating layer a few nanometers thick can suppress current leakage without the need for additional resistance. I
t is still a big challenge to achieve high LED efficiency.com. At present, UFO High Bay Lights Factory research teams have used graphene-like materials to make LEDs. If you want to transmit a large amount of information, you need to integrate energy-saving, high-speed LEDs on the chip. Because the two-dimensional graphene-like structure is only carbon atom thick, has clear light-emitting properties and can be placed on a microchip, it has become a very popular semiconductor material in recent years. Professor Goki Eda of the Department of Physics and Chemistry of the National University of Singapore led the research team to successfully develop a high-performance ultra-thin LED, which contains only a few layers of carbon atoms, which can effectively reduce the energy lost by the LED in the electro-optical effect. For information processing technology,
the complete conversion of electrical signals (Electrical) into optical signals (Optical Signals) is very important.’ (Text: Annie) For reprinting, E-Mail authorization from this website is required. The research team found that energy loss can be significantly reduced by preventing current from leaking from the emissive layer (EML) to the metal electrode (Metal Electrodes). Professor Eda said, ’Because our design ensures the least waste of electricity and the equipment can operate at extremely low currents, this technology will have a great impact on future communication technologies
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the electro-optical effect only converts part of the current into light, and most of it is converted into heat dissipation. And indicate ’;from’;, unauthorized reprinting, reprinting out of chapter and other acts, this website will be held for legal responsibility! E-Mail:service@ledinside. Studies have shown that an insulating layer a few nanometers thick can suppress current leakage without the need for additional resistance. I
t is still a big challenge to achieve high LED efficiency.com. At present, UFO High Bay Lights Factory research teams have used graphene-like materials to make LEDs. If you want to transmit a large amount of information, you need to integrate energy-saving, high-speed LEDs on the chip. Because the two-dimensional graphene-like structure is only carbon atom thick, has clear light-emitting properties and can be placed on a microchip, it has become a very popular semiconductor material in recent years. Professor Goki Eda of the Department of Physics and Chemistry of the National University of Singapore led the research team to successfully develop a high-performance ultra-thin LED, which contains only a few layers of carbon atoms, which can effectively reduce the energy lost by the LED in the electro-optical effect. For information processing technology,
the complete conversion of electrical signals (Electrical) into optical signals (Optical Signals) is very important.’ (Text: Annie) For reprinting, E-Mail authorization from this website is required. The research team found that energy loss can be significantly reduced by preventing current from leaking from the emissive layer (EML) to the metal electrode (Metal Electrodes). Professor Eda said, ’Because our design ensures the least waste of electricity and the equipment can operate at extremely low currents, this technology will have a great impact on future communication technologies
https://www.nbsunlux.com/product/ufo-high-bay-light/
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