Optical Efficiency Improvement of Chip-on-Board Design LEDs with TiO₂/Silicone Packaging Coating

Since TiO₂ nanoparticles and silicon composites include a strong scatter influence, they are well-known for improving scattered lighting in LED packets. To improve the optic quality of LEDs packaged with chip-on-board (COB), a thin layer made of high-concentration TiO₂ and silicon glue is added to the primary packing layer. COB LEDs' light extraction efficiency (LEE) rises up to 65% when the key encapsulation includes just silicone, according to the findings of experiments. As a coating of TiO₂ and silicone is added, however, the increase in LEE is dependent on the TiO₂ concentration. The LEE can be increased from 6% to 24% as the concentration of nanoparticles drops to 0.035 g/cm³. Furthermore, at a mean correlated color temperature (CCT) of around 8500 K, the TiO₂/silicone compounds layer will assist in lowering the angular correlated color temperature (CCT) variance between 900 and 470 K within the -90° to 90° observing angle range.