Jongjin Jang scite author profile

Realization of phosphor-free white-light emitters is becoming an important milestone on the road to achieve high quality and reliability in high-power white-light-emitting diodes (LEDs). However, most of reported methods have not been applied to practical use because of their difficulties and complexity. In this study we demonstrated a novel and practical growth method for phosphor-free white-light emitters without any external processing, using only in-situ high-density GaN nanostructures that were formed by overgrowth on a silicon nitride (SiNx) interlayer deposited by metal organic chemical vapor deposition. The nano-sized facets produced variations in the InGaN thickness and the indium concentration when an InGaN/GaN double heterostructure was monolithically grown on them, leading to white-color light emission. It is important to note that the in-situ SiNx interlayer not only facilitated the GaN nano-facet structure, but also blocked the propagation of dislocations.

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Jongjin Jang

Improved performance of semi-polar (11-22) GaN-based light-emitting diodes grown on SiNx interlayer

Enhancement of photo- and electro-luminescence of GaN-based LED structure grown on a nanometer-scaled patterned sapphire substrate

Correlation between luminescence and defects in nonpolar and semipolar InGaN/GaN quantum wells on planar and patterned sapphire substrates

Defect reduction in (11–22) semipolar GaN with embedded InN islands on m-plane sapphire

Self-assembled growth of inclined GaN nanorods on (10−10) m-plane sapphire using metal–organic chemical vapor deposition

Defect reduction of SiN x embedded m -plane GaN grown by hydride vapor phase epitaxy

Study of green light-emitting diodes grown on semipolar (11–22) GaN/m-sapphire with different crystal qualities

Phosphor-free white-light emitters using in-situ GaN nanostructures grown by metal organic chemical vapor deposition

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