CN1805159A - Quantum spot/quantum well light emitting diode - Google Patents

Abstract

The invention relates to a quanta point/well light-emitting diode, which prepares a light-emitting diode on one side of basic plate; the second and third lighting layers on the another side of said basic plate. When a consequent bias voltage in correct amount is processed on said light-emitting diode, the first lighting layer can emit the first light, via which the second and third lighting layers can be excited to generate the second and third lights in different colors to be output; and when the first, second and third lights are mixed, the needed light can be output.

Description

A kind of quantum spot/quantum well light emitting diode

Technical field

The present invention relates to a kind of light-emitting diode, particularly relate to a kind of quantum spot/quantum well light emitting diode of exempting from fluorescent material.

Background technology

(Light Emitting Diode is a kind of semiconductor luminous assembly LED) to light-emitting diode, is different from traditional incandescent lamp bulb and makes filament heat to luminous with big electric current, and light-emitting diode only must can inspire suitable light by a minimum electric current.Light-emitting diode utilize in the semi-conducting material electronics electricity hole in conjunction with the time show the energy that it discharges in luminous mode; Advantages such as light-emitting diode is specifically long-pending little, the life-span is long, driving voltage is low, power consumption is low, reaction rate is fast, the special good and monochromaticjty of vibration strength is good are the luminescence component of various electrical equipment, informative advertising board, communication product etc.According to the control of chip kind and technology, can obtain various monochromatic light.

Because LED economizes the characteristic of the energy, to be expected to substitute the part bulb future as ligthing paraphernalia, but because white light LEDs therefore still fail to popularize, but white light LEDs is a field of the LED industry Great Leap Forward on long terms because the factor of luminosity and price still can not be popularized at present.The product of white light LEDs now is to send sodium yellow with the blue light-emitting diode excitated fluorescent powder mostly, just can visually form white light after two kinds of light mix.And along with blue light-emitting diode brightness lifting gradually, being applied on the illumination market of feasible exploitation white light emitting diode is full of hope.

The development of high-brightness LED, allow the industry of LED inject vigour into, especially blue-green light LED succeeds in developing, and with the lifting more day by day of luminous usefulness, brightness at present can reach several more than candle light, and in up promoting, also more and more higher because of the brightness of blue light, so coat the white light LEDs that fluorescent material inspires by blue light-emitting diode, be applied in the also expansion day by day thereupon of purposes on the illumination market.But because its white light forms by blue light and yellow light mix, the light that white light LEDs sent is difficult to be controlled to be pure white, approximately be white in band green grass or young crops or have yellow halo, promptly have uneven colour temperature (Color Temperature).

And the product of present commercialization maturation, be by Japan's day inferior chemical inorganic white light emitting diode of being developed, its structural representation please refer to shown in Figure 1, be to be coated with one deck second aluminium garnet fluorescent material 20 on the blue light crystal grain 10 of 460 nanometers at wavelength, utilize blue light-emitting diode to excite second aluminium garnet fluorescent material 20,, utilize lens principle again with the gold-tinted of generation with 555 nano wave lengths of blue light complementation, the gold-tinted and the blue light of complementation are mixed, obtained required white light.The white light emitting diode cost of the method made is lower, and the electric power loop structure is also simpler.

Consist predominantly of blue light crystal grain and fluorescent material two large divisions in this white light emitting diode, right because the useful life of fluorescent material is not long, therefore, can make to be subject to the useful life of fluorescent material the useful life of existing light-emitting diode.In addition,, therefore, when it beats on red object, can't send the light of redness, and make suitable poor of its color rendering (ColorRendering Index) because the light that sent of this light-emitting diode itself does not comprise red light.

And be to solve the not good problem of color rendering, there is the people just to propose to utilize each single light-emitting diode of red, blue, green three looks to produce white emitting light source through mixed light.Yet, owing to the light-emitting diode of each wavelength is not positioned on the same area, but the fixed range that is separated from each other, therefore, it has the not good problem of color rendering equally.

And comparatively advanced at present technology is utilized two kinds of of heap of stone brilliant materials that send different wave length, and the technology that merges (Wafer fusion) via wafer bonding (Wafer bonding) or wafer is combined into a white emitting light source.Right the absorption that causes for two chip interfaces will reduce its luminous efficiency, improves the door of its technology and cost indirectly owing to added the technology of wafer bonding in the manufacturing process of this light source, and also can increase the degree of difficulty of technology and the yield of reduction product.

Therefore, how to develop and a kind ofly can not need use fluorescent material, and have the light-emitting diode of characteristics such as high color rendering, long useful life, low cost, real a great problem simultaneously for needing to be resolved hurrily.

Summary of the invention

In view of above problem, main purpose of the present invention is to provide a kind of quantum spot/quantum well light emitting diode, side in a substrate is made a light-emitting diode, and make one second luminescent layer and one the 3rd luminescent layer at the opposite side of this substrate, when applying suitable n type doping nitration case and the p type doping nitration case of forward bias voltage drop in this light-emitting diode, make its luminescent layer send one first light, and excite this second luminescent layer and the 3rd luminescent layer by this first light, make the output of its second light that produces different colours respectively and the 3rd light, and this first light, second light and the 3rd light can produce the light output of required color through behind the mixed light.

The user can be according to using the different demand that goes up, and change the composition material of luminescent layer, second luminescent layer and the 3rd luminescent layer in this light-emitting diode, make it send the light of different colours, by adjusting the light combination of different colours, different proportion, to be mixed into the light output of required color.

Owing to quantum spot/quantum well light emitting diode utilization of the present invention is reclaimed photon reaction again and is made second luminescent layer and the 3rd luminescent layer inspire the light of different colours, therefore, can't be subject to the useful life of fluorescent material its useful life, so its useful life can be also longer than the existing white light emitting diode that contains fluorescent material.

In addition, because the structure utilization of its luminescent layer brilliant mode of heap of stone is made on the substrate, therefore, its volume be with respect to need utilizing three R/G/B light-emitting diodes to come for the white light source of mixed light in the prior art, no matter be that itself volume or shared area all can significantly reduce.

And quantum spot/quantum well light emitting diode of the present invention sends the light of three kinds of different wave lengths (red, blue, green) on same area, therefore, utilize for the light emitting source that independent LED separately carries out colour mixture with respect to existing, this light-emitting diode has preferable color rendering.

In addition, because the present invention utilizes the mode of heap of stone brilliant required membrane structure of growing up layer by layer, therefore, not needing needs two kinds of of heap of stone brilliant materials that send different wave length are combined into a white emitting light source via wafer bonding techniques as prior art, therefore, do not have the puzzlement that luminous efficiency lowers in the prior art, and do not have the problem of binding the reliability that is caused because of wafer yet.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is the configuration diagram of existing inorganic white light emitting diode;

Fig. 2 is for reclaiming the schematic diagram of photon reaction again;

Fig. 3 A is the structural representation of quantum spot/quantum well light emitting diode first embodiment of the present invention;

Fig. 3 B is the structural representation of quantum spot/quantum well light emitting diode second embodiment of the present invention;

Fig. 4 A is the structural representation of quantum spot/quantum well light emitting diode the 3rd embodiment of the present invention; And

Fig. 4 B is the structural representation of quantum spot/quantum well light emitting diode the 4th embodiment of the present invention.

Wherein, Reference numeral:

10 blue light crystal grain

20 second aluminium garnet fluorescent material

30 basic light sources

40 second luminescent materials

50 the 3rd luminescent materials

60 substrates

61 first surfaces

62 second surfaces

70 light emitting diode constructions

71 n type doping nitration cases

711 n type electrodes

72 first luminescent layers

73 p type doping nitration cases

731 p type electrodes

80 second luminescent layers

90 walls

100 the 3rd luminescent layers

Embodiment

Please refer to shown in Figure 2, the photon reaction is reclaimed in quantum spot/quantum well light emitting diode utilization of the present invention again, (this second luminescent material 40 and the 3rd luminescent material 50 can absorb the energy of basic light source 30 wave bands to the part light that one basic light source 30 is sent in order to excite one second luminescent material 40 and one the 3rd luminescent material 50 respectively, to send the light of different colours), certainly, the part light that is sent by second luminescent material 40 also can be in order to excite this 3rd luminescent material 50, and this basic light source 30, the light of three kinds of colors that second luminescent material 40 and the 3rd luminescent material 50 are sent can produce the light output of required color through behind the mixed light.

Please refer to shown in Fig. 3 A, be the structural representation of quantum spot/quantum well light emitting diode first embodiment of the present invention.This quantum spot/quantum well light emitting diode consists predominantly of: a substrate 60, a light emitting diode construction 70, one second luminescent layer 80, a wall 90 and one the 3rd luminescent layer 100.

This substrate 60 includes a first surface 61 and a second surface 62.And this substrate 60 need be selected the material that is fit to crystalline substance of heap of stone for use, for example: compounds such as sapphire substrate (Sapphire), silicon (Si) substrate, carborundum (SiC) substrate, alundum (Al (Al2O3) substrate, gallium nitride (GaN) substrate, aluminium nitride (AlN) substrate, GaAs (GaAs) substrate and zinc oxide (ZnO) substrate, and form through polishing, with usefulness as crystalline substance of heap of stone.

This blue light-emitting diode structure 70 is grown up on the first surface 61 of substrate 60 belows, it mainly includes a n type doping nitration case 71, a p type doping nitration case 73, and is folded in first luminescent layer 72 between n type doping nitration case 71 and the p type doping nitration case 73.The material of this first luminescent layer 72 is for containing the nitride of indium or aluminium, and its structure is-can limit to the quantum well/quantum dot of carrier.

And being formed with a n type electrode 711 and a p type electrode 731 respectively on this n type doping nitration case 71 and the p type doping nitration case 73, this n type electrode 711 is formed on the part surface of n type doping nitration case 71 and p type doping nitration case 73 with p type electrode 731.When using, utilize this n type electrode 711 and p type electrode 731, to apply a suitable forward bias voltage drop, can excite this first luminescent layer 72 to send blue light in this n type doping nitration case 71 and p type doping nitration case 73.

This second luminescent layer 80 is formed on the second surface 62 of substrate 60, and its composition material is based on nitride, and its structure is for limiting to the quantum spot/quantum well layer of carrier.This second luminescent layer 80 can absorb the blue light that first luminescent layer 72 is sent, and sends green glow.

This wall 90 is formed on second luminescent layer 80, and its composition material its objective is in order to separate second luminescent layer 80 and the 3rd luminescent layer 100 equally based on nitride.

This 3rd luminescent layer 100 is formed on the wall 90, and its composition material also is based on nitride, and its structure is for limiting to the quantum spot/quantum well layer of carrier.This 3rd luminescent layer 100 can absorb the green glow that blue light that first luminescent layer 72 sent and second luminescent layer 80 are sent, and sends ruddiness.

When by this n type electrode 711 and p type electrode 731, during with p type doping nitration case 73, can excite first luminescent layer 72 wherein to produce the output of one first light in this n type doping nitration case 71 and apply a suitable forward bias voltage drop, this first light is blue light.And directly output of the part light in this first light, other light partly is then in order to excite this second luminescent layer 80 and the 3rd luminescent layer 100 respectively, after the quantum spot/quantum well layer of second luminescent layer 80 absorbs this blue light, can produce one second light, this second light is green glow; And after the quantum spot/quantum well layer of this 3rd luminescent layer 100 absorbs the part green glow that this part blue light that is produced by first luminescent layer 72 and second luminescent layer 80 produced, then can produce one the 3rd light, this 3rd light is ruddiness; Thus, mixed light effect by first light (blue light), second light (green glow) and the 3rd light (ruddiness), can produce required white light output, and this n type electrode 711 can be in order to reflect this first light, second light and the 3rd light with p type electrode 731.

Certainly, the user can be according to using the different demand that goes up, and change the composition material of this first luminescent layer 72, second luminescent layer 80 and the 3rd luminescent layer 100, make it send the light of different colours, by adjusting the light combination of different colours, different proportion, to be mixed into the light output of required color.

Please refer to shown in Fig. 3 B, be the structural representation of quantum spot/quantum well light emitting diode first embodiment of the present invention, the framework of this second embodiment is identical with first embodiment haply, and only interlayer 90 between the omission wherein also can reach identical illumination effect.

Please refer to shown in Fig. 4 A, structural representation for quantum spot/quantum well light emitting diode the 3rd embodiment of the present invention, the framework of this 3rd embodiment is identical with first embodiment haply, but the structure of its blue light-emitting diode structure 70 be with first embodiment in opposite, in the first above-mentioned embodiment, the production method of its light emitting diode construction 70 forms n type doping nitration case 71, first luminescent layer 72 and p type doping nitration case 73 in regular turn on the first surface 61 of substrate 60.And in this second embodiment, the production method of its light emitting diode construction 70 then is to form p type doping nitration case 73, first luminescent layer 72 and n type doping nitration case 71 in regular turn on the first surface 61 of substrate 60, in order to send first light that excites this second luminescent layer 80 and the 3rd luminescent layer 100, this first light is blue light to the structure of this light emitting diode construction 70 equally.

Part light in this first light is output directly, other light partly is then in order to excite this second luminescent layer 80 and the 3rd luminescent layer 100 respectively, after the quantum spot/quantum well layer of second luminescent layer 80 absorbs this blue light, can produce one second light, this second light is green glow; And after the quantum spot/quantum well layer of this 3rd luminescent layer 100 absorbs the part green glow that this part blue light that is produced by first luminescent layer 72 and second luminescent layer 80 produced, then can produce one the 3rd light, this 3rd light is ruddiness; Thus, by the mixed light effect of first light (blue light), second light (green glow) and the 3rd light (ruddiness), can produce required white light output.

Please refer to shown in Fig. 4 B, structural representation for quantum spot/quantum well light emitting diode the 4th embodiment of the present invention, the framework of this 4th embodiment is identical with the 3rd embodiment haply, this light-emitting diode structure is the wall 90 that omits wherein equally, also can reach identical illumination effect.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (21)

1, a kind of quantum spot/quantum well light emitting diode, it includes:

One substrate, this substrate include a first surface and a second surface;

One light emitting diode construction is arranged on the first surface of this substrate, and this light emitting diode construction includes a n type doping nitration case, a p type doping nitration case and is folded in one first luminescent layer between two these nitration cases;

One second luminescent layer is positioned on this second surface; And

One the 3rd luminescent layer is positioned on this second luminescent layer;

Wherein, when applying a suitable forward bias voltage drop in this n type doping nitration case and this p type doping nitration case, can excite this first luminescent layer to produce the output of one first light, and the part light in this first light is in order to excite this second luminescent layer and the 3rd luminescent layer respectively, to produce the output of one second light and one the 3rd light, this second light also can be in order to excite the 3rd luminescent layer, by the mixing of this first light, this second light and the 3rd light, to produce the light output of required color.

2, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, also includes a wall, is folded between this second luminescent layer and the 3rd luminescent layer.

3, quantum spot/quantum well light emitting diode according to claim 1, it is characterized in that, also include a n type electrode and a p type electrode, this n type electrode is connected in this n type doping nitration case, this p type electrode is connected in this p type doping nitration case, by applying a voltage to this n type electrode and this p type electrode, to apply a suitable forward bias voltage drop in this n type doping nitration case and this p type doping nitration case.

4, quantum spot/quantum well light emitting diode according to claim 1, it is characterized in that, this n type electrode and this p type electrode are formed at respectively on the part surface of this n type doping nitration case and this p type doping nitration case, and can be in order to reflect this first light, this second light and the 3rd light.

5, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, this n type doping nitration case is formed on this first surface of this substrate.

6, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, this p type doping nitration case is formed on this first luminescent layer of this substrate.

7, quantum spot/quantum well light emitting diode according to claim 1, it is characterized in that, this substrate is selected from by sapphire substrate (Sapphire), silicon (Si) substrate, carborundum (SiC) substrate, alundum (Al (Al2O3) substrate, gallium nitride (GaN) substrate, aluminium nitride (AlN) substrate, GaAs (GaAs) substrate and zinc oxide (ZnO) substrate institute and becomes one of combination, and this first surface of this substrate must be minute surface with this second surface.

8, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, the material of this first luminescent layer is for based on indium containing nitride, and its structure is one can limit to the quantum well/quantum dot of carrier.

9, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, the material of this second luminescent layer and the 3rd luminescent layer is for based on nitride, and its structure is one can limit to the quantum well/quantum dot of carrier.

10, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, the wavelength of this first light belongs to the wave-length coverage of blue light.

11, quantum spot/quantum well light emitting diode according to claim 1 is characterized in that, the wavelength of this second light and the 3rd light belongs to the wave-length coverage of green glow and ruddiness respectively.

12, a kind of quantum spot/quantum well light emitting diode, it includes:

One substrate;

One light emitting diode construction is arranged on the first surface of this substrate, and this light emitting diode construction includes a n type doping nitration case, a p type doping nitration case and is folded in one first luminescent layer between two these nitration cases;

One second luminescent layer is positioned on this p type doping nitration case;

One wall is positioned on this second luminescent layer; And

One the 3rd luminescent layer is positioned on this wall;

Wherein, when applying a suitable forward bias voltage drop in this n type doping nitration case and this p type doping nitration case, can excite this first luminescent layer to produce the output of one first light, and the part light in this first light is in order to excite this second luminescent layer and the 3rd luminescent layer respectively, to produce the output of one second light and one the 3rd light, this second light also can be in order to excite the 3rd luminescent layer, by the mixing of this first light, this second light and the 3rd light, to produce the light output of required color.

13, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, also includes a wall, is folded between this second luminescent layer and the 3rd luminescent layer.

14, quantum spot/quantum well light emitting diode according to claim 12, it is characterized in that, also include a n type electrode and a p type electrode, this n type electrode is connected in this n type doping nitration case, this p type electrode is connected in this p type doping nitration case, by applying a voltage to this n type electrode and this p type electrode, to apply a suitable forward bias voltage drop in this n type doping nitration case and this p type doping nitration case.

15, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, this n type doping nitration case is formed on this substrate.

16, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, this p type doping nitration case is formed on this first luminescent layer.

17, quantum spot/quantum well light emitting diode according to claim 12, it is characterized in that this substrate is selected from by sapphire substrate (Sapphire), silicon (Si) substrate, carborundum (SiC) substrate, alundum (Al (Al2O3) substrate, gallium nitride (GaN) substrate, aluminium nitride (AlN) substrate, GaAs (GaAs) substrate and zinc oxide (ZnO) substrate institute and becomes one of combination.

18, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, the material of this first luminescent layer is for based on indium containing nitride, and its structure is one can limit to the quantum well/quantum dot of carrier.

19, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, the material of this second luminescent layer and the 3rd luminescent layer is for based on nitride, and its structure is one can limit to the quantum well/quantum dot of carrier.

20, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, the wavelength of this first light belongs to the wave-length coverage of blue light.

21, quantum spot/quantum well light emitting diode according to claim 12 is characterized in that, the wavelength of this second light and the 3rd light belongs to the wave-length coverage of green glow and ruddiness respectively.

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