Organic EL element having reflective interface transport layers

The invention claimed is: 1. An organic EL element comprising: an anode, a cathode, a luminescent layer provided between the anode and the cathode, a hole transport layer provided between the anode and the luminescent layer, and an electron transport layer provided between the cathode and the luminescent layer, wherein one of the anode and the cathode is composed of a reflecting electrode, at least one of the hole transport layer and the electron transport layer is composed of a doped layer to which a dopant material is added and a non-doped layer to which a dopant material is not added, a reflection surface that reflects light from the luminescent layer is provided at an interface between the doped layer and the non-doped layer, the luminescent layer is composed of luminescent layers of a plurality of colors, among the luminescent layers of a plurality of colors, adjacent luminescent layers of different colors are formed integrally, and in at least one of the hole transport layer and the electron transport layer, a doped layer to which a dopant material is added and a non-doped layer to which a dopant material is not added are formed correspondingly to the integrally formed adjacent luminescent layers of different colors. 2. The organic EL element according to claim 1 , wherein the electron transport layer is composed of a doped electron transport layer to which an n-type dopant material is added and a non-doped electron transport layer to which an n-type dopant material is not added, and a first reflection surface as the reflection surface is provided at an interface between the doped electron transport layer and the non-doped electron transport layer. 3. The organic EL element according to claim 1 , wherein the hole transport layer is composed of a doped hole transport layer to which a p-type dopant material is added and a non-doped hole transport layer to which a p-type dopant material is not added, and a second reflection surface as the reflection surface is provided at an interface between the doped hole transport layer and the non-doped hole transport layer. 4. The organic EL element according to claim 1 , wherein the cathode is composed of a reflecting electrode, and light from the luminescent layer is emitted from the anode side to the outside. 5. The organic EL element according to claim 1 , wherein the anode is composed of a reflecting electrode, and light from the luminescent layer is emitted from the cathode side to the outside. 6. A method for producing the organic EL element of claim 1 , the method comprising: forming a non-doped electron transport layer to which an n-type dopant material is not added and a doped electron transport layer to which an n-type dopant material is added, as the electron transport layer; heating the organic EL element; and forming a non-doped hole transport layer to which a p-type dopant material is not added and a doped hole transport layer to which a p-type dopant material is added, as the hole transport layer. 7. The method for producing an organic EL element according to claim 6 , wherein, in the heating of the organic EL element, a reflection surface that reflects light from the luminescent layer is formed at an interface between the non-doped electron transport layer and the doped electron transport layer. 8. The method for producing an organic EL element according to claim 6 , further comprising forming luminescent layers of a plurality of colors, wherein, in the formation of luminescent layers of a plurality of colors, adjacent luminescent layers of different colors are formed integrally, and in the formation of the non-doped electron transport layer and the doped electron transport layer, the non-doped electron transport layer and the doped electron transport layer are formed correspondingly to the integrally formed adjacent luminescent layers of different colors. 9. The method for producing an organic EL element according to claim 6 , wherein, in the heating of the organic EL element, a first reflection surface that reflects light from the luminescent layer is formed at an interface between the non-doped electron transport layer and the doped electron transport layer, and a second reflection surface that reflects light from the luminescent layer is formed at an interface between the non-doped hole transport layer and the doped hole transport layer. 10. The method for producing an organic EL element according to claim 6 , further comprising forming luminescent layers of a plurality of colors, wherein, in the formation of luminescent layers of a plurality of colors, adjacent luminescent layers of different colors are formed integrally, and in the formation of the non-doped hole transport layer and the doped hole transport layer and in the formation of the non-doped electron transport layer and the doped electron transport layer, the non-doped hole transport layer and the doped hole transport layer, and the non-doped electron transport layer and the doped electron transport layer are formed correspondingly to the integrally formed adjacent luminescent layers of different colors. 11. A method for producing the organic EL element of claim 1 , the method comprising: forming a non-doped hole transport layer to which a p-type dopant material is not added and a doped hole transport layer to which a p-type dopant material is added, as the hole transport layer; and heating the organic EL element. 12. The method for producing an organic EL element according to claim 11 , wherein, in the heating of the organic EL element, a reflection surface that reflects light from the luminescent layer is formed at an interface between the non-doped hole transport layer and the doped hole transport layer. 13. The method for producing an organic EL element according to claim 11 , further comprising forming luminescent layers of a plurality of colors, wherein, in the formation of luminescent layers of a plurality of colors, adjacent luminescent layers of different colors are formed integrally, and in the formation of the non-doped hole transport layer and the doped hole transport layer, the non-doped hole transport layer and the doped hole transport layer are formed correspondingly to the integrally formed adjacent luminescent layers of different colors. 14. An organic EL element comprising: an anode, a cathode, a luminescent layer provided between the anode and the cathode, a hole transport layer provided between the anode and the luminescent layer, and an electron transport layer provided between the cathode and the luminescent layer, wherein one of the anode and the cathode is composed of a reflecting electrode, at least one of the hole transport layer and the electron transport layer is composed of a doped layer to which a dopant material is added and a non-doped layer to which a dopant material is not added, a reflection surface that reflects light from the luminescent layer is provided at an interface between the doped layer and the non-doped layer, the hole transport layer is composed of a doped hole transport layer to which a p-type dopant material is added and a non-doped hole transport layer to which a p-type dopant material is not added, and a second reflection surface as the reflection surface is provided at an interface between the doped hole transport layer and the non-doped hole transport layer. 15. The organic EL element according to claim 14 , wherein the cathode is composed of a reflecting electrode, and light from the luminescent layer is emitted from the anode side to the outside. 16.