Hitachi Cable, Ltd. has developed a new mass-production technology for GaN-templates, in which a high-quality gallium nitride (GaN) single-crystal thin film is grown on a sapphire substrate, and it will start selling these templates.
Using this product as a base substrate for an epitaxial wafer for white LEDs (hereinafter referred to as "epiwafer for white LED epiwafers") makes it possible to drastically improve productivity of white LED epiwafers and the LED properties. Therefore, this product is expected to become an effective solution to improve the position of white led street light with solar panel in the industry, where there is severe competition.
The demand for white LEDs is rapidly expanding and they have come to be used in backlight unit in liquid crystal displays (LCDs) and ordinary lighting devices in recent years thanks to their energy efficiency and long service life. The structure of an white LED epiwafer consists of a thin active layer and a p-type GaN layer with a total thickness of about 1μm over an n-type GaN layer with a thickness of about 10μm, grown on a sapphire substrate. All these crystal layers are produced by the MOVPE method in ordinary manufacturing processes.
The MOVPE method is suitable for growing active layers which require atomic-level control of the film thickness. Meanwhile, a disadvantage of this method is that it takes a long time to grow a high-quality and thick n-type GaN layer. White LED epiwafers can be grown about once or twice a day at the most, and thus there is a need for a high-efficiency production method.
To solve this problem, Hitachi Cable developed a GaN-template used as a base substrate for growth in the led street lighting Manufacturer method. The GaN template consists of an n-type GaN layer grown on a sapphire substrate. Using a GaN-template means LED manufacturers do not need to grow an n-type GaN buffer layer and this reduces the time required for growth by about half compared with conventional methods. The GaN-templates of Hitachi Cable are also suitable for high-output LEDs which require large currents because they allow both low resistance and high crystal formation.
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