Light emitting diode and method for manufacturing the same
First Claim
1. A light emitting diode, comprising:
- an AlGalnP multi-layer epitaxial structure including an active layer sandwiched between an upper cladding layer and a lower cladding layer;
an epitaxial layer formed on said upper cladding layer in a first direction;
a first ohmic contact layer formed on said epitaxial layer in said first direction;
a transparent adhesive layer positioned on said first ohmic contact layer in said first direction;
a transparent substrate adhered to said first ohmic contact layer via said transparent adhesive layer in said first direction;
a second ohmic contact layer formed on said lower cladding layer in a second direction, said second direction being opposite to said first direction;
a first metal bonding layer formed on said epitaxial layer in said second direction;
a second metal bonding layer formed on said second ohmic contact layer in said second direction; and
an electrode connecting channel, formed within said epitaxial layer, for electrically coupling said first metal bonding layer to said first ohmic contact layer.
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Abstract
The present invention disclosed a light emitting diode (LED) and method for manufacturing the same. The light emitting diode includes a transparent substrate connected to an epitaxial layer with absorption substrate via a transparent adhesive layer. Then, the absorption substrate is removed to form a light emitting diode with the transparent substrate. Because of the low light absorption of the transparent substrate, the present invention provides high luminescence efficiency. Furthermore, because the first metal bonding layer is electrical connected with the first ohmic contact layer by the electrode connecting channel, the voltage is decreased and the current distribution is increased in the fixed current to improve the luminous efficiency of a light emitting diode.
104 Citations
17 Claims
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1. A light emitting diode, comprising:
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an AlGalnP multi-layer epitaxial structure including an active layer sandwiched between an upper cladding layer and a lower cladding layer;
an epitaxial layer formed on said upper cladding layer in a first direction;
a first ohmic contact layer formed on said epitaxial layer in said first direction;
a transparent adhesive layer positioned on said first ohmic contact layer in said first direction;
a transparent substrate adhered to said first ohmic contact layer via said transparent adhesive layer in said first direction;
a second ohmic contact layer formed on said lower cladding layer in a second direction, said second direction being opposite to said first direction;
a first metal bonding layer formed on said epitaxial layer in said second direction;
a second metal bonding layer formed on said second ohmic contact layer in said second direction; and
an electrode connecting channel, formed within said epitaxial layer, for electrically coupling said first metal bonding layer to said first ohmic contact layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for manufacturing a light emitting diode, comprising:
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providing a substrate;
forming an etching stop layer on said substrate in a first direction;
forming an AlGalnP multi-layer epitaxial structure, comprising an active layer sandwiched between an upper cladding layer and a lower cladding layer, on said etching stop layer in said first direction;
forming an epitaxial layer on said upper cladding layer in said first direction;
forming a first ohmic contact layer on said epitaxial layer in said first direction;
providing a transparent substrate;
connecting said transparent substrate to said first ohmic contact layer and said epitaxial layer via a transparent adhesive layer coated on said transparent substrate;
removing said substrate and said etching stop layer;
removing a portion of said AlGalnP multi-layer epitaxial structure and a portion of said epitaxial layer to expose said epitaxial layer;
forming a channel within said epitaxial layer to expose said first ohmic contact layer;
forming a first metal bonding layer on said exposed epitaxial layer in a second direction, said second direction being opposite to said first direction;
filling said channel to form an electrode connecting channel for electrically coupling said first metal bonding layer to said first ohmic contact layer;
forming a second ohmic contact layer on said lower cladding layer in said second direction; and
forming a second metal bonding layer on said second ohmic contact layer in said second direction. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
pressuring and heating at 60°
C.˜
100°
C. during connecting process; and
pressuring and heating at 200°
C.˜
600°
C. during connecting process.
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17. The light emitting diode according to claim 9, wherein said metal bonding layer is selected from a group consisting of Al and Au.
Specification