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10/14/2019 HYU News > Academics > 이달의연구자

Title

[Excellent R&D] Technique to Improve Display Technology

Professor Kim Jaekyun (Department of Photonics and Nanoelectronics)

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http://www.hanyang.ac.kr/surl/BT7AB

Contents

In the modern world, people look, read, communicate, and even travel through the few-inch square screen. Thus, developing a better display technique has always been an aspired aim. Professor Kim Jaekyun's (Department of Photonics and Nanoelectronics) recent proposition for a better display technology with a ‘Programmable Non-Contact Assembly-based 5000ppi Micro LED Display’ suggests a new and better technology for the future of displays.
 

Kim Jaekyun (Department of Photonics and Nanoelectronics), in his recent study proposition, suggested a better Micro LED transfer technology for the future of displays.


Micro LED is an emerging display technology, consisting of an array of microscopic light-emitting diodes (LEDs) forming the individual color pixels. This particular LED is quickly becoming the “next big thing” for it outperforms, in many ways, the organic light-emitting diode (OLED), which is the current and dominant display technique used in most devices. Most importantly, Micro LED has much better energy efficiency. With the same amount of electricity, Micro LED emits light 1000 times brighter than OLED. This indicates that smaller, lesser, and more distantly arranged Micro LEDs will create the same smooth screen as the previous OLED.


However, there is one big problem to solve before commercialization. For Micro LED, the Red-Green-Blue color pixels are manufactured separately, then directly transferred onto the display backplane. However, the current transfer technology, where each pixel is transferred one by one, is highly time-consuming and expensive. The result is an expensive product unfit for commercializing, such as Samsung’s new model of television, the Wall Professional, which costs up to 300 million won.
 

A large Micro LED display in the Garosu-gil Apple store. Although the LEDs are arranged quite distantly in close view, the brighter light of Micro LED creates the illusion of a smooth surface from afar.
(Photo courtesy of Kim)


Kim proposed a technique that arranges the color pixels without any direct contact. First, the Micro LEDs dispersed in a solution will be spread on the backplane. As a result of the electric field from the sophisticatedly-designed backplane, the micro LEDs will automatically be arranged into correct position. The micro LED display made by this technique will be much cheaper, allowing a wide commercialization of the micro LED. Kim expects the technique to be implemented on all devices, including smartphones and TVs. He primarily expects its positive impact on the performance of AR glasses, which requires a small but bright display light as Micro LED.


“The research will be difficult, but I have conviction that it will work,” said Kim. “When researching, one has to think less of ‘will it work?’ and more of ‘I need to make it work’; because in the end, somebody will. For the next three years, I’ll keep these words in mind and work my hardest to succeed in developing the new Micro LED technology.”



Lim Ji-woo        il04131@hanyang.ac.kr
Photos by Lee Hyeon-seon

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