WO2016117845A1 - 발광 소자 및 이를 제조하는 전자 빔 증착 장치 - Google Patents
발광 소자 및 이를 제조하는 전자 빔 증착 장치 Download PDFInfo
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- WO2016117845A1 WO2016117845A1 PCT/KR2015/014455 KR2015014455W WO2016117845A1 WO 2016117845 A1 WO2016117845 A1 WO 2016117845A1 KR 2015014455 W KR2015014455 W KR 2015014455W WO 2016117845 A1 WO2016117845 A1 WO 2016117845A1
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- Prior art keywords
- light emitting
- region
- jig
- electrode
- disposed
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- H01L21/18—Manufacture or treatment of semiconductor devices or of parts thereof the devices having potential barriers, e.g. a PN junction, depletion layer or carrier concentration layer the devices having semiconductor bodies comprising elements of Group IV of the Periodic Table or AIIIBV compounds with or without impurities, e.g. doping materials
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- H01L2933/0016—Processes relating to electrodes
Definitions
- Embodiments relate to an electron beam deposition apparatus for forming a light emitting element and an electrode layer of the light emitting element.
- Group III-V compound semiconductors such as GaN and AlGaN are widely used in optoelectronics and electronic devices due to many advantages such as wide and easy to adjust band gap energy.
- light emitting diodes such as light emitting diodes or laser diodes using the III-V or II-VI compound semiconductor materials of semiconductors have been developed using thin film growth technology and device materials, such as red, green, blue and ultraviolet light.
- Various colors can be realized, and efficient white light can be realized by using fluorescent materials or by combining colors.Low power consumption, semi-permanent life, fast response speed, safety, It has the advantages of environmental friendliness.
- a white light emitting device that can replace a fluorescent light bulb or an incandescent bulb that replaces a Cold Cathode Fluorescence Lamp (CCFL) constituting a backlight of a transmission module of an optical communication means and a liquid crystal display (LCD) display device.
- CCFL Cold Cathode Fluorescence Lamp
- LCD liquid crystal display
- the light emitting structure of the above-described light emitting diode is grown on a substrate such as sapphire, the horizontal light emitting device in which the substrate remains as it is after the growth of the light emitting structure, a metal support is coupled to one side of the light emitting structure and the substrate is removed
- the thickness of the substrate or the metal support is large, making it difficult to form an ultra-thin pixel.
- the embodiment is intended to implement an ultra-thin light emitting device in which the deposition quality of the metal layer is improved by improving the structure of the substrate holder in the electron beam deposition apparatus.
- Embodiments of the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above may be clearly understood by those skilled in the art to which the embodiments belong.
- Embodiments may include a light emitting structure including a first conductive semiconductor layer, an active layer, and a second conductive semiconductor layer; First and second electrodes disposed on the first and second conductivity-type semiconductor layers, respectively;
- the light emitting structure may include a first mesa region, the first conductive semiconductor layer may include a second mesa region, and the first electrode may be a partial region of an upper surface of the second mesa region. domain; A second region that is a side surface of the second mesa region; And a third region extending from an edge of the side surface of the second mesa region.
- the thickness ratio of the first region, the second region and the third region provides a light emitting device as follows.
- d1 corresponds to the thickness of the first region
- d2 corresponds to the thickness of the second region
- d3 corresponds to the thickness of the third region.
- Another embodiment forms the first electrode, the thermal electron emission portion;
- a source supply including a deposition material evaporated by the hot electrons supplied by the hot electron emitter;
- a dome part spaced apart from the source supply part;
- the dome unit includes a plurality of substrate holders, and the plurality of substrate holders provide an electron beam deposition apparatus including a variable jig in which an inclination angle is adjusted.
- the electron beam deposition apparatus of the embodiment can freely adjust the placement angle of the substrate fixed to the substrate holder including a variable jig, and when using such an electron beam deposition apparatus, the substrate is inclined to be inclined with respect to the source supplied when the metal layer is deposited to emit light. Step coverage can be improved in layers with steps in the device.
- 1 to 2 is a view showing an embodiment of a light emitting device
- 3A is a perspective view of a light emitting device according to one embodiment
- 3B is a plan view of a light emitting device according to one embodiment
- FIG. 4 is a view showing an embodiment of an electron beam deposition apparatus
- FIG. 6 is a view showing an embodiment of a substrate holder portion
- 7 to 8 is a view showing an embodiment of a variable jig
- 9 to 10 is a view showing an embodiment of a fixing jig
- FIG. 11 is a view showing an embodiment of a substrate holder
- FIG. 12 is a view showing a portion of a dome portion including the substrate holder of one embodiment
- FIG. 13 is a view showing an embodiment of an angle measuring instrument
- FIG. 14 is a view illustrating a portion of a dome portion to which an angle measurer is attached in one embodiment.
- the above (on) or (under) (on) or under) when described as being formed on the "on or under” of each element, the above (on) or (under) (on) or under) includes two elements in which the two elements are in direct contact with each other or one or more other elements are formed indirectly between the two elements.
- the above (on) or (under) (on) or under) when expressed as “on” or “under”, it may include the meaning of the downward direction as well as the upward direction based on one element.
- relational terms such as “first” and “second”, “upper / upper / up” and “lower / lower / lower”, etc., which are used hereinafter, refer to any physical or logical relationship or order between such entities or elements. May be used only to distinguish one entity or element from another entity or element without necessarily requiring or implying.
- each layer is exaggerated, omitted, or schematically illustrated for convenience and clarity of description. Also, the size of each component does not fully reflect its actual size.
- 1 to 2 are diagrams illustrating an embodiment of a light emitting device.
- the light emitting device is disposed on the light emitting structure 120 including the first conductive semiconductor layer 122, the active layer 124, and the second conductive semiconductor layer 126, and the first and second conductive semiconductor layers.
- Each of the first and second electrodes 142 and 146 may be disposed.
- the light emitting structure 120 may have at least one mesa region.
- the mesa region corresponds to a region including the upper surface and the side surface of the structure formed by mesa etching.
- the light emitting structure may include a first mesa, and the first conductive semiconductor layer may include a second mesa.
- the first mesa region may include a first conductive semiconductor layer 122, an active layer 124, and a second conductive semiconductor layer 126.
- the second mesa region may include only the first conductivity type semiconductor layer 122.
- the first mesa may be disposed on the second mesa.
- the light emitting structure 120 may include a first conductive semiconductor layer 122, an active layer 124 on the first conductive semiconductor layer, and a second conductive semiconductor layer 126 disposed on the active layer.
- the first conductive semiconductor layer 122 may be formed of a compound semiconductor such as a III-V group or a II-VI group, and may be doped with the first conductive dopant.
- the first conductive semiconductor layer 122 is a semiconductor material having Al x In y Ga (1-xy) N (0 ⁇ x ⁇ 1, 0 ⁇ y ⁇ 1, 0 ⁇ x + y ⁇ 1), AlGaN. , GaN, InAlGaN, AlGaAs, GaP, GaAs, GaAsP, AlGaInP may be formed of any one or more.
- the first conductivity type dopant may include an n type dopant such as Si, Ge, Sn, Se, Te, or the like.
- the first conductivity type semiconductor layer 122 may be formed as a single layer or a multilayer, but is not limited thereto.
- the active layer 124 may be disposed on the first conductivity type semiconductor layer 122.
- the active layer 124 is disposed between the first conductivity type semiconductor layer 122 and the second conductivity type semiconductor layer 126, and has a single well structure, a multi well structure, a single quantum well structure, and a multi quantum well.
- a multi-quantum well (MQW) structure, a quantum dot structure or a quantum line structure may be included.
- the active layer 124 is formed of a well layer and a barrier layer, for example AlGaN / AlGaN, InGaN / GaN, InGaN / InGaN, AlGaN / GaN, InAlGaN / GaN, GaAs (InGaAs) using a compound semiconductor material of group III-V elements.
- a barrier layer for example AlGaN / AlGaN, InGaN / GaN, InGaN / InGaN, AlGaN / GaN, InAlGaN / GaN, GaAs (InGaAs) using a compound semiconductor material of group III-V elements.
- / AlGaAs, GaP (InGaP) / AlGaP may be formed of any one or more pair structure, but is not limited thereto.
- the well layer may be formed of a material having an energy band gap smaller than the energy band gap of the barrier layer.
- the second conductivity-type semiconductor layer 126 may be formed of a semiconductor compound on the surface of the active layer 124.
- the second conductive semiconductor layer 126 may be formed of a compound semiconductor such as a group III-V group or a group II-VI, and may be doped with a second conductive dopant.
- the second conductivity-type semiconductor layer 126 is, for example, a semiconductor material having a compositional formula of In x Al y Ga 1-xy N (0 ⁇ x ⁇ 1, 0 ⁇ y ⁇ 1, 0 ⁇ x + y ⁇ 1), AlGaN , GaN AlInN, AlGaAs, GaP, GaAs, GaAsP, AlGaInP may be formed of one or more, for example, the second conductivity-type semiconductor layer 126 may be made of Al x Ga (1-x) N.
- the second conductive dopant may be a p-type dopant such as Mg, Zn, Ca, Sr, or Ba.
- the second conductivity-type semiconductor layer 126 may be formed as a single layer or a multilayer, but is not limited thereto.
- the conductive layer 130 may be further disposed on the second conductive semiconductor layer 126.
- the conductive layer 130 may improve electrical characteristics of the second conductive semiconductor layer 126 and may improve electrical contact with the second electrode 146.
- the conductive layer 130 may have a plurality of layers or patterns, and the conductive layer 130 may be formed of a transparent electrode layer having transparency.
- the conductive layer 130 may include, for example, indium tin oxide (ITO), indium zinc oxide (IZO), indium zinc tin oxide (IZTO), indium aluminum zinc oxide (IZAZO), indium gallium zinc oxide (IGZO), or IGTO (IGTO).
- ITO indium tin oxide
- IZO indium zinc oxide
- IZTO indium zinc tin oxide
- IZAZO indium aluminum zinc oxide
- IGZO indium gallium zinc oxide
- IGTO IGTO
- Indium Gallium Tin Oxide AZO (Aluminum Zinc Oxide), ATO (Antimony Tin Oxide), GZO (Gallium Zinc Oxide), IZON (IZO Nitride), AGZO (Al-Ga ZnO), IGZO (In-Ga ZnO), ZnO (Zinc Oxide), IrOx (Iridium Oxide), RuOx (Ruthenium Oxide), NiO (Nickel Oxide), RuOx / ITO, Ni / IrOx / Au (Gold) may be formed, but is limited to such materials It doesn't work.
- the first electrode 142 and the second electrode 146 may be disposed on the first conductive semiconductor layer 122 and the second conductive semiconductor layer 126, respectively.
- the first electrode 142 and the second electrode 146 are conductive materials such as indium (In), cobalt (Co), silicon (Si), germanium (Ge), gold (Au), palladium (Pd), Platinum (Pt), Ruthenium (Ru), Rhenium (Re), Magnesium (Mg), Zinc (Zn), Hafnium (Hf), Tantalum (Ta), Rhodium (Rh), Iridium (Ir), Tungsten (W), Metal selected from titanium (Ti), silver (Ag), chromium (Cr), molybdenum (Mo), niobium (Nb), aluminum (Al), nickel (Ni), copper (Cu) and titanium tungsten alloy (WTi) Alternatively, the alloy may be formed as a single layer or a multilayer, but is not limited thereto.
- the alloy may be formed as a single layer or a multilayer, but is not limited thereto.
- the first electrode 142 may be disposed in a portion of the second mesa region (Second mesa). That is, the first electrode 142 may be disposed in a portion of the first conductive semiconductor layer 122 exposed by mesa etching.
- the first electrode 142 may be a top surface of the first conductivity-type semiconductor layer 122, that is, a portion of the top surface of the second mesa region and the side surface of the second mesa region, and the second surface of the second mesa region. It may be formed extending from the edge of the mesa region.
- the first electrode 142 may be formed using the electron beam deposition apparatus of an embodiment described later. That is, the metal layer of the first electrode 142 may be formed in the embodiment of the electron beam deposition apparatus having a variable jig.
- the first electrode includes a first region disposed in a partial region on the second mesa region, a second region disposed on the side of the second mesa region, and a third region disposed extending from an edge of the side surface of the second mesa region.
- the thickness ratio of the first region to the third region of the first electrode may be as follows.
- d1 may be a thickness of the first region
- d2 may be a thickness of the second region
- d3 may be a thickness of the third region.
- the thicknesses d1 and d3 of the first region and the third region of the first electrode layer may be about 1 ⁇ m, and the thickness d2 of the second region may be about 0.9 ⁇ m to about 1.1 ⁇ m.
- a substrate including a deposition surface may be formed so that the evaporated metal material may easily reach the stepped portion of the light emitting device formed by the second mesa region. Since it can arrange
- the thickness of the first electrode layer may be uniform in a portion formed extending from the upper surface and side surfaces of the second mesa region and the edge of the side surface.
- the first electrode layer may have a uniform electrode layer thickness when the variable jig is fixed to have an inclination angle of 30 degrees to 45 degrees with respect to the fixed jig in an embodiment of the electron beam deposition apparatus described below.
- the first electrode 142 may include an ohmic layer, a reflective layer, and a bonding layer.
- the ohmic layer of the first electrode may include chromium (Cr) or silver (Ag)
- the reflective layer may include platinum (Pt) and gold (Au), nickel (Ni) and gold (Au), aluminum (Al) and platinum.
- Pt and gold (Au) and aluminum (Al) and nickel (Ni) and gold (Au) may be a structure formed of any one or an alloy thereof, the bonding layer may comprise titanium (Ti). have.
- the ohmic layer of the first electrode 142 may facilitate coupling of the first conductive semiconductor layer 122 and the reflective layer, and the coupling layer may be formed for coupling the reflective layer and the insulating layer 150.
- the first electrode 142 may be disposed such that a first surface of the first electrode contacts the insulating layer 150 to be described later, and a part of the second surface facing the first surface is exposed to the outside.
- the second electrode 146 may be disposed on the second conductivity type semiconductor layer 126.
- the second electrode 146 may be disposed on the conductive layer 130.
- the inclination angle of the variable jig may be fixed to the fixed jig at an angle smaller than 30 degrees.
- the inclination angle of the variable jig in the electron beam deposition apparatus of the embodiment may be adjusted according to the shape of the metal layer to be deposited.
- the second electrode 146 may include an ohmic layer and a reflective layer.
- the ohmic layer of the second electrode may be made of chromium, silver, or titanium, and the ohmic layer may facilitate coupling of the conductive layer and the reflective layer.
- the reflective layer of the second electrode may include platinum (Pt), gold (Au), nickel (Ni), gold (Au), aluminum (Al), platinum (Pt), gold (Au), aluminum (Al), nickel ( Ni) and gold (Au) may be any one or an alloy thereof.
- the insulating layer 150 may be disposed on the exposed light emitting structure 120 between the first electrode 142 and the second electrode 146.
- the insulating layer 150 may be disposed on the exposed surface of the light emitting structure 120 and the first electrode 142.
- the insulating layer 150 is disposed on the first mesa region and the second mesa region of the light emitting structure 120, and the second conductive semiconductor layer 126 on the first mesa region is exposed.
- the open area may be included if possible.
- the second conductive semiconductor layer 126 and the insulating layer 150 may be formed outside the region in which the second conductive semiconductor layer 126 or the conductive layer 130 is opened. At least a portion of the second electrode 146 may be overlapped.
- the second electrode 146 may be disposed in the open area.
- the second electrode 146 may contact the second conductivity type semiconductor layer 126.
- the insulating layer 150 may be formed of an insulating material to prevent electrical contact between the first conductive semiconductor layer 122 and the second conductive semiconductor layer 126.
- the insulating layer 150 may be formed of a material such as SiO 2 , Si 3 N 4 , polyimide, or the like.
- the insulating layer 150 may be formed of a material having a high reflectance in order to increase the efficiency of light emitted from the light emitting structure, for example, may have a DBR structure.
- a side surface of the second mesa region may be inclined with respect to the bottom surface of the first conductivity type semiconductor layer 122.
- the inclination angle ⁇ 2 formed at the side surface of the second mesa region with the bottom surface of the first conductive semiconductor layer may be greater than 50 degrees and smaller than 90 degrees.
- the inclination angle ⁇ 2 may be 70 degrees to 80 degrees.
- the height of the first conductive semiconductor layer constituting the second mesa region that is, the height t1 from the bottom surface of the first conductive semiconductor layer to the upper surface of the second mesa region may be about 2 ⁇ m.
- the side surface of the first mesa is shown to be close to the vertical, but the embodiment is not limited thereto, and the side surface of the first mesa may be inclined at an angle with respect to the bottom surface of the light emitting device. It may be disposed obliquely.
- the side surface of the first mesa may be inclined with respect to the upper surface of the second mesa region.
- the inclination angle ⁇ 3 of which the side surface of the first mesa region is the upper surface of the second mesa region may be 70 degrees to 90 degrees.
- the inclination angle of the side surface of the first mesa region with the top surface of the second mesa region may be the same as the inclination angle of the side surface of the first mesa region with the bottom surface of the first conductive semiconductor layer.
- the inclination angle of the side surface of the second mesa region with the bottom surface of the first conductivity-type semiconductor layer is determined at the inclination angle ⁇ 2 of the portion where the first electrode is disposed and at the portion where the first electrode is not disposed.
- the inclination angles ⁇ 4 may be equal to each other.
- the inclination angles ⁇ 2 and ⁇ 4 of the side surfaces of the second mesa region that form the bottom surface of the first conductive semiconductor layer may be 70 degrees to 80 degrees.
- the second mesa region is formed by the dry etching process, it may not be easy to form the inclination angle of the side surface smaller than 70 degrees, and when the inclination angle formed by the side surface is smaller than 70 degrees, the first slope is gentle.
- the electrode 142 may be uniformly deposited, a problem may arise in that the cost is increased by increasing the deposition area of the first metal.
- the step coverage of the first electrode 142 is also improved, and the first mesa region including the first electrode 142 is first.
- the deposition thickness of the insulating layer 150 formed on the Mesa and the second mesa may also be uniform.
- ⁇ 4 ⁇ ⁇ 2 may be used.
- the inclination angles ⁇ 2 and ⁇ 4 on both sides may be 70 to 80 degrees.
- the thickness of the first electrode 142 formed along the side surface of the second mesa region can be made uniform by maintaining ⁇ 2 at an inclination angle of ⁇ 4 or less, and thereafter, an insulating layer formed on the first electrode 142.
- the thickness of 150 can also be formed uniformly.
- 3A to 3B show a perspective view and a plan view of the light emitting device of the embodiment.
- the first electrode 142 may be formed along a step of the side surface of the second mesa. That is, the first electrode 142 may be connected to the upper surface of the second mesa, the side of the second mesa, and the edge area extending from the side of the second mesa along the step of the second mesa area.
- the light emitting device may be a micro-LED (micro LED), the light emitting device of the embodiment that is a ⁇ LED can be made smaller than the size of a conventional light emitting device.
- the width Wa and the length Wb may be each within 100 ⁇ m.
- the light emitting device of the embodiment has a length Wa of 82 ⁇ m and a length of length. (Wb) may have a rectangular shape of 30 ⁇ m.
- the light emitting device of the above-described embodiment or the light emitting device array in which a plurality of light emitting devices of the embodiment are arranged and arranged may be used in an apparatus requiring precision due to the miniaturized size, and the first electrode may be formed as a uniform layer on the second mesa region.
- the productivity of the light emitting device can be improved by reducing the defects caused by the step coverage.
- FIG. 4 is a diagram illustrating an embodiment of an E-beam evaporator.
- the electron beam deposition apparatus 1000 may be a device for forming the first electrode 142 of the light emitting device described above.
- the electron beam deposition apparatus 1000 may include a thermal electron emitter 430, a source supply part 440, and a dome part 500, and the dome part 500 may include a plurality of substrate holders 300.
- the thermal electron emitter 430 may include a thermal filament that receives a high current to emit electrons.
- the electron beam resulting from supplying current to the thermal filament may be guided by a magnetic field formed by the electromagnet and concentrated on the deposition material.
- the path of the electron beam supplied from the thermal electron emitter 430 and having high energy may be changed by a magnetic field induced by the electromagnet, and concentrated and transmitted to the source supply part 440.
- the source supply unit 440 may include a deposition material to be formed on a substrate using an electron beam deposition apparatus, and the deposition material may be heated by hot electrons and then evaporated to be deposited on the substrate.
- the source supply 440 may include a water cooled hearth 460 for storing the deposition material.
- the evaporation material before evaporation may be contained in a solid state 444, and the center portion of the source supply 440 may be heated and melted by hot electrons supplied from the hot electron emitter 430. molten state) may be contained in the deposition material 442.
- the molten deposition material 442 may be evaporated from the source supply 440 to form a thin film on the substrate.
- the dome part 500 including the substrate holder 300 on which the substrate is mounted may be spaced apart from the source supply part 440.
- the dome part 500 may be disposed above the source supply part 440 to be spaced apart by a height at which the deposition material evaporated from the source supply part 440 may reach.
- the dome part 500 may be rotated to uniformly deposit the deposition material on the substrate mounted on the dome part.
- FIG. 4 schematically illustrates a cross-sectional view of the electron beam deposition apparatus.
- the dome part 500 may have a hat shape that is wider from the top to the bottom.
- the side surface of the dome portion may have an inclination angle ⁇ 1 with respect to the lower surface of the dome portion.
- the side surface of the dome portion may have an angle of 10 degrees to 15 degrees with respect to the bottom surface of the dome portion.
- FIG. 5 is a view schematically showing an upper surface of the dome part 500.
- FIG. 5 may be a plan view of the dome part 500 including the plurality of substrate holders 300 viewed from above.
- the plurality of substrate holders 300 may be disposed adjacent to a lower portion of the dome portion.
- the plurality of substrate holders 300 may be disposed at regular intervals along the lower circumference of the dome portion.
- FIG. 6 illustrates a substrate holder 300 of one embodiment.
- the substrate holder 300 may include a fixing jig 310 and a variable jig 330.
- the fixing jig 310 and the variable jig 330 of the substrate holder 300 may have a ring shape in which a center portion is drilled to mount the substrate, and the substrate for thin film deposition may be fixed to the variable jig 330. Can be.
- the diameter of the variable jig 330 may be smaller than the diameter of the fixed jig 310, for example, the outer diameter of the variable jig 330 is smaller than the inner diameter of the fixed jig 310, so that the annular fixed jig 310 may be formed.
- the variable jig 330 may be disposed on the inside thereof.
- Figure 8 may be a cross-sectional view of the side of the variable jig.
- variable jig 330 may have a ring shape, and at least one screw groove may be formed in the direction of the inner surface 330a from the outer surface 330b of the variable jig.
- At least one screw groove formed on the side of the variable jig may be disposed to correspond to the screw groove of the fixing jig to be described later, the coupling screw 332 connects the screw groove of the corresponding variable jig and the screw groove of the fixing jig Can be placed through.
- two screw grooves may be formed on the side of the variable jig, and the two screw grooves may be formed on the circumference of the variable jig to face each other.
- the inner surface 330a of the variable jig may have a stepped portion A, and the substrate may be disposed to be seated on the stepped portion A.
- the deposition surface a in which the thin film layer is formed on the substrate S may be disposed to face the inner surface 330a having the stepped portion A.
- FIGS. 9 to 10 are views illustrating one embodiment of the fixing jig 310.
- Figure 10 is a plan view of the fixing jig, Figure 10 may be a view showing a side of the fixing jig.
- a screw groove may be formed in the direction of the outer surface 310b from the inner surface 310a of the fixing jig so that the coupling screw 332 may be disposed in the screw groove.
- the fixing jig and the variable jig may be disposed such that at least one screw groove formed on the side of the fixing jig corresponds to the screw groove of the variable jig described above.
- the fixing part 312 for fixing the coupling screw disposed through the screw groove may be disposed on the fixing jig.
- the fixing part 312 may contact the coupling screw 332 through a through hole formed in the upper surface of the fixing jig 310. Meanwhile, the inside of the through hole formed on the fixing part 312 and the fixing jig may have a screw groove.
- the fixing part 312 may protrude from the fixing jig 310.
- FIG. 11 is a top view of a substrate holder of one embodiment.
- FIG. 11 may be a diagram illustrating an embodiment of a substrate holder including a fixing jig and a variable jig.
- At least one screw groove may be included in each of the side of the fixing jig 310 and the side of the variable jig 330.
- the fixing jig and the variable jig may be disposed such that the screw grooves formed in the fixing jig 310 and the variable jig 330 correspond to each other, and the coupling screw 332 connects the two jig through each screw groove. Can be.
- the substrate may be mounted on the variable jig 330, and at least one fixing pin 336 may be disposed on one side of the variable jig so that the mounted substrate is not separated to one side.
- One side of the fixing pin 336 is fixed to the reference pin 334 disposed on the variable jig 330.
- variable jig 330 is coupled to the fixed jig 310 at at least one or more points, and the variable jig may be fixed to have an inclination angle with respect to the fixed jig.
- variable jig 330 may be fixedly coupled to the fixed jig 310 at two points on the circumference facing each other, and the annular variable jig and the fixed jig may be on the same plane. Without being arranged, the variable jig 330 and the fixed jig 310 may be fixedly arranged to have an angle between them.
- FIG. 12 is a view showing a portion of one of the substrate holder 300 of the plurality of substrate holders disposed in the dome portion of the embodiment.
- the portion within the rectangular dotted line area may be a portion of the dome portion including one substrate holder 300 in FIG. 4.
- the fixing jig 310 may be a portion fixed to the dome portion of the electron beam deposition apparatus.
- variable jig 330 may be fixedly coupled to the fixed jig 310 at at least one point, and the substrate S for thin film deposition may be disposed inside the variable jig 330.
- the substrate S mounted on the substrate holder 300 is a surface on which the substrate S is deposited. It may be arranged to face.
- FIG. 13 is a diagram illustrating an embodiment of an inclination angle measuring device 600.
- the inclination angle measurer 600 may be formed to be detachable from the dome portion of the electron beam deposition apparatus.
- the inclination angle measuring device may be used to measure the inclination angle of the variable jig based on the fixing jig, and after the variable jig is fixed to have a predetermined inclination angle, the inclination angle measuring device may be detached from the dome part.
- the inclination angle measuring device may be detached from the dome portion.
- the tilt angle measuring unit 600 may be a scale 620 for angle measurement on the plastic substrate 610.
- the tilt angle measuring device may be made of a transparent plastic material, and specifically, acrylic or polycarbonate may be used.
- FIG 14 is a view illustrating a part of the dome unit in which the inclination angle measuring unit 600 is attached.
- variable jig 330 may be fixed to have an inclination angle ⁇ s with respect to the fixing jig 310 in a state where the inclination angle measuring unit 600 is mounted.
- variable jig may be rotated based on the portion coupled to the fixed jig, and the variable jig may be adjusted to have an inclination angle of 0 degrees to 90 degrees based on the fixed jig.
- variable jig 330 may be fixed to have an inclination angle of 30 degrees to 45 degrees with respect to the fixing jig 310.
- the inclination angle of the variable jig is maintained at 30 degrees to 45 degrees, step coverage of the thin film layer deposited on the deposition substrate having the stepped pattern may be improved.
- the arrangement angle of the variable jig can be freely adjusted, the arrangement of the variable jig according to the type of deposition material supplied from the source supply unit or the thickness and pattern of the deposition layer to be formed on the substrate during the deposition process.
- the angle can vary.
- the light emitting device of the above-described embodiment may be included in a wearable device.
- the light emitting device array including the light emitting device of the embodiment or the light emitting device of the embodiment may be included in the smart watch.
- the smart watch may perform pairing with an external digital device
- the external digital device may be a digital device capable of communicating with the smart watch, and may include, for example, a smartphone, a notebook computer, an IPTV (Internet Protocol Television), and the like. have.
- a light emitting device array in which the light emitting device of the above-described embodiment or the plurality of light emitting devices of the above-described embodiment is aligned and arranged on a flexible printed circuit board (FPCB) may be used.
- FPCB flexible printed circuit board
- the smart watch including the light emitting device of the embodiment may be worn on the wrist due to the size of the miniaturized light emitting device and the flexibility of the FPCB, and fine pixels may be realized due to the small size of the light emitting device.
- a light guide plate, a prism sheet, a diffusion sheet, and the like, which are optical members, may be disposed on an optical path of the light emitting device.
- the light emitting device, the substrate, and the optical member may function as a backlight unit.
- the display device may include a display device, an indicator device, and a lighting device including the light emitting device according to the embodiment.
- the display device may include a bottom cover, a reflector disposed on the bottom cover, a light emitting element emitting light, a light guide plate disposed in front of the reflector, and guiding light emitted from the light emitting element to the front, and disposed in front of the light guide plate.
- An optical sheet including prism sheets to be formed, a display panel disposed in front of the optical sheet, an image signal output circuit connected to the display panel and supplying an image signal to the display panel, and a color filter disposed in front of the display panel. can do.
- the bottom cover, the reflector, the light emitting element array, the light guide plate, and the optical sheet may form a backlight unit.
- the lighting apparatus may include a light source module including a substrate and a light emitting device according to an embodiment, a heating element for dissipating heat from the light source module, and a power supply unit configured to process or convert an electrical signal provided from the outside and provide the light source module to the light source module.
- a light source module including a substrate and a light emitting device according to an embodiment, a heating element for dissipating heat from the light source module, and a power supply unit configured to process or convert an electrical signal provided from the outside and provide the light source module to the light source module.
- the lighting device may include a lamp, a head lamp, or a street lamp.
- the size of the device can be reduced and the design constraint can be reduced due to the characteristics of the flexible light emitting device array.
- the electron beam deposition apparatus of the embodiment can freely adjust the placement angle of the substrate fixed to the substrate holder including the variable jig, there is industrial applicability.
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Abstract
Description
Claims (20)
- 제1 도전형 반도체층, 활성층 및 제2 도전형 반도체층을 포함하는 발광 구조물; 및상기 제1 및 제2 도전형 반도체층 상에 각각 배치된 제1 및 제2 전극; 을 포함하고,상기 발광 구조물은 제1 메사 영역을 포함하고, 상기 제1 도전형 반도체층은 제2 메사 영역을 포함하며,상기 제1 전극은 상기 제2 메사 영역 상부면의 일부 영역인 제1 영역;상기 제2 메사 영역의 측면인 제2 영역; 및상기 제2 메사 영역의 상기 측면의 가장자리에서 연장되어 배치된 제3 영역; 을 포함하며,상기 제1 영역, 상기 제2 영역 및 상기 제3 영역의 두께비는 아래와 같은 발광 소자.d1 : d2 : d3 = 1: 0.9~1.1 : 1(여기서, d1은 제1 영역의 두께, d2는 제2 영역의 두께, d3는 제3 영역의 두께에 해당한다.)
- 제 1항에 있어서, 상기 제2 메사 영역의 측면이 상기 제1 도전형 반도체층의 바닥면과 이루는 경사각은 70도 내지 80도인 발광 소자.
- 제 1항에 있어서, 상기 제1 메사 영역의 측면이 상기 제2 메사 영역의 상부면과 이루는 경사각은 70도 내지 90도인 발광 소자.
- 제 1항에 있어서, 상기 제1 전극과 상기 제2 전극 사이의 노출된 상기 발광 구조물 상에 배치된 절연층을 포함하는 발광 소자.
- 제1 전극을 형성하는 전자 빔 증착 장치에 있어서,열 전자 방출부;상기 열 전자 방출부에서 공급된 열 전자에 의하여 증발되는 증착 물질을 포함한 소스 공급부; 및상기 소스 공급부 상에 이격되어 배치된 돔부; 를 포함하며,상기 돔부는 복수의 기판 홀더를 포함하고,상기 복수의 기판 홀더는 경사각이 조절되는 가변 지그를 포함하는 전자 빔 증착 장치.
- 제 5항에 있어서, 상기 복수의 기판 홀더는 상기 가변 지그를 상기 돔부에 고정하는 고정 지그를 포함하는 전자 빔 증착 장치.
- 제 6항에 있어서, 상기 고정 지그와 상기 가변 지그는 직경이 서로 다른 고리(ring) 형상인 전자 빔 증착 장치
- 제 7항에 있어서, 상기 가변 지그는 상기 고정 지그의 내측에 배치되는 전자 빔 증착 장치.
- 제 6항에 있어서, 상기 가변 지그는 상기 고정 지그와 적어도 하나의 지점에서 결합되어 고정되는 전자 빔 증착 장치.
- 제 9항에 있어서, 상기 고정 지그의 측면과 상기 가변 지그의 측면에 각각 적어도 하나의 나사홈을 포함하고,상기 고정 지그의 상기 나사홈과 상기 가변 지그의 상기 나사홈이 서로 대응하여 배치되며,상기 고정 지그와 상기 가변 지그는 상기 대응하는 각각의 상기 나사홈에 관통하여 배치된 결합 나사에 의하여 결합되어 고정되는 전자 빔 증착 장치.
- 제 10항에 있어서, 상기 고정 지그 상에 배치되어 상기 결합 나사를 고정하는 고정부를 포함하는 전자 빔 증착 장치.
- 제 6항에 있어서, 상기 가변 지그는 상기 고정 지그에 대하여 경사각을 갖도록 고정되는 전자 빔 증착 장치.
- 제 12항에 있어서, 상기 가변 지그는 상기 고정 지그에 대하여 30도 내지 45도의 경사각을 갖는 전자 빔 증착 장치.
- 제 5항에 있어서, 상기 가변 지그는 상기 기판을 고정하는 적어도 하나의 고정핀을 포함하는 전자 빔 증착 장치.
- 제 5항에 있어서, 상기 돔부 상에 탈부착 가능하게 설치되며,상기 가변 지그의 상기 경사각을 확인하는 경사각 측정기를 포함하는 전자 빔 증착 장치.
- 제1 도전형 반도체층, 활성층 및 제2 도전형 반도체층을 포함하는 발광 구조물;상기 제1 및 제2 도전형 반도체층 상에 각각 배치된 제1 및 제2 전극; 및상기 제1 전극과 상기 제2 전극 사이의 노출된 상기 발광 구조물 상에 배치된 절연층; 을 포함하는 발광 소자.
- 제 16항에 있어서, 상기 절연층은 상기 발광 구조물의 노출된 표면 및 상기 제1 전극 상에 배치되는 발광 소자.
- 제 16항에 있어서, 상기 제1 전극은 제1면이 상기 절연층과 접촉하고 상기 제1면과 마주보는 제2면의 일부가 노출되어 배치되는 발광 소자.
- 제 16항에 있어서, 상기 제2 도전형 반도체층 상에 배치되는 도전층을 포함하는 발광 소자.
- 제 19항에 있어서, 상기 제2 전극은 상기 도전층 상에 배치되는 발광 소자.
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