Class / Patent application number | Description | Number of patent applications / Date published |
257090000 | With heterojunction | 10 |
20080290354 | Light Emitting Diode Assembly - A light emitting diode (LED) assembly, comprising a metal substrate ( | 11-27-2008 |
20100001300 | COPACKING CONFIGURATIONS FOR NONPOLAR GaN AND/OR SEMIPOLAR GaN LEDs - A packaged light emitting device. The device has a substrate member comprising a surface region. The device has a substrate member comprising a surface region. The device also has two or more light emitting diode devices overlying the surface region according to a specific embodiment. At least a first of the light emitting diode device is fabricated on a semipolar GaN containing substrate and at least a second of the light emitting diode devices is fabricated on a nonpolar GaN containing substrate. In a preferred embodiment, the two or more light emitting diode devices emits substantially polarized emission. Of course, there can be other variations, modifications, and alternatives. | 01-07-2010 |
20100006873 | HIGHLY POLARIZED WHITE LIGHT SOURCE BY COMBINING BLUE LED ON SEMIPOLAR OR NONPOLAR GaN WITH YELLOW LED ON SEMIPOLAR OR NONPOLAR GaN - A packaged light emitting device. The device has a substrate member comprising a surface region. The device also has two or more light emitting diode devices overlying the surface region. Each of the light emitting diode device is fabricated on a semipolar or nonpolar GaN containing substrate. The two or more light emitting diode devices are fabricated on the semipolar or nonpolar GaN containing substrate emits substantially polarized emission. | 01-14-2010 |
20100181581 | TYPE II BROADBAND OR POLYCHROMATIC LEDS - An LED is provided comprising two or more light-emitting Type II interfaces wherein at least two of the Type II interfaces differ in transition energy by at least 5%, or more typically by at least 10%, and wherein at least one of the Type II interfaces is within a pn junction. Alternately, an LED is provided comprising two or more light-emitting Type II interfaces wherein at least two of the Type II interfaces differ in transition energy by at least 5%, or more typically by at least 10%. The Type II interfaces may include interfaces from a layer which is an electron quantum well and not a hole quantum well, interfaces to a layer which is a hole quantum well and not an electron quantum well; and interfaces that satisfy both conditions simultaneously. The Type II interfaces may be within a pn or pin junction or not within a pn or pin junction. In the later case, emission from the Type II interfaces may be photopumped by a nearby light source. The LED may be a white or near-white light LED. In addition, graphic display devices and illumination devices comprising the semiconductor device according to the present invention are provided. | 07-22-2010 |
20100224889 | Polychromatic LED's and Related Semiconductor Devices - A semiconductor device is provided comprising a first potential well located within a pn junction and a second potential well not located within a pn junction. The potential wells may be quantum wells. The semiconductor device is typically an LED, and may be a white or near-white light LED. The semiconductor device may additionally comprise a third potential well not located within a pn junction. The semiconductor device may additionally comprise absorbing layers surrounding or closely or immediately adjacent to the second or third quantum wells. In addition, graphic display devices and illumination devices comprising the semiconductor device according to the present invention are provided. | 09-09-2010 |
20100244062 | WHITE LIGHT EMITTING ELEMENT - This invention provides a white light emitting element having a prolonged lifetime that can emit white light having high color purity. The white light emitting element comprises: opposed electrodes | 09-30-2010 |
20140327021 | LED LIGHTING MODULE - An LED lighting module includes a support board with a first LED and a second LED thereon. The wavelength of light emitted by the first LED is different from that of light emitted by the second LED. The height of the first LED is different from that of the second LED for preventing the emitting light of the first LED absorbed by the wavelength conversion layer of the second LED. | 11-06-2014 |
20140339580 | Integrated Multi-Color Light Emitting Device Made With Hybrid Crystal Structure - An integrated hybrid crystal Light Emitting Diode (“LED”) display device that may emit red, green, and blue colors on a single wafer. The various embodiments may provide double-sided hetero crystal growth with hexagonal wurtzite III-Nitride compound semiconductor on one side of (0001) c-plane sapphire media and cubic zinc-blended III-V or II-VI compound semiconductor on the opposite side of c-plane sapphire media. The c-plane sapphire media may be a bulk single crystalline c-plane sapphire wafer, a thin free standing c-plane sapphire layer, or crack-and-bonded c-plane sapphire layer on any substrate. The bandgap energies and lattice constants of the compound semiconductor alloys may be changed by mixing different amounts of ingredients of the same group into the compound semiconductor. The bandgap energy and lattice constant may be engineered by changing the alloy composition within the cubic group IV, group III-V, and group II-VI semiconductors and within the hexagonal III-Nitrides. | 11-20-2014 |
20150069433 | ARRAY OF LUMINESCENT ELEMENTS - Light emitting systems and method of fabricating the same are disclosed. The light emitting system includes two or more monolithically integrated luminescent elements. Each luminescent element includes an electroluminescent device and a dedicated switching circuit for driving the electroluminescent device. At least one luminescent element includes a potential well for down converting light emitted by the electroluminescent device in the luminescent element. | 03-12-2015 |
20170236807 | III-V MICRO-LED ARRAYS AND METHODS FOR PREPARING THE SAME | 08-17-2017 |