Organic electroluminescent element, manufacturing method for same, and light emission method including a thermally activated delayed fluorescent material

The invention claimed is: 1. An organic electroluminescent element comprising: at least one layer of an exciton generating layer containing at least one type of thermally activated delayed fluorescent material as a host material; and at least one layer of a fluorescent emission layer containing at least one type of fluorescent emission material, wherein the exciton generating layer and the fluorescent emission layer are between an anode and a cathode, and the exciton generating layer is laminated to be closer to an anode side than is the fluorescent emission layer. 2. The organic electroluminescent element as set forth in claim 1 , wherein: a shortest distance from an arbitrary location in the exciton generating layer to the fluorescent emission layer is 10 nm or less. 3. The organic electroluminescent element as set forth in claim 1 , wherein: an excited singlet level of the thermally activated delayed fluorescent material in the exciton generating layer is equal to or higher than an excited singlet level of the fluorescent emission material in the fluorescent emission layer in terms of energy level. 4. The organic electroluminescent element as set forth in claim 1 , wherein: a HOMO level of the thermally activated delayed fluorescent material in the exciton generating layer is higher than a HOMO level of the fluorescent emission material of the fluorescent emission layer, and a LUMO level of the thermally activated delayed fluorescent material in the exciton generating layer is lower than a LUMO level of the fluorescent emission material in the fluorescent emission layer. 5. The organic electroluminescent element as set forth in claim 1 , wherein: the fluorescent emission material contained in the fluorescent emission layer is a thermally activated delayed fluorescent material. 6. The organic electroluminescent element as set forth in claim 1 , wherein: a plurality of fluorescent emission layers are provided between the anode and the cathode, each of the plurality of fluorescent emission layers being said fluorescent emission layer. 7. The organic electroluminescent element as set forth in claim 6 , wherein: the plurality of fluorescent emission layers are laminated such that the exciton generating layer is sandwiched between any two of the plurality of fluorescent emission layers. 8. The organic electroluminescent element as set forth in claim 7 , wherein: the plurality of fluorescent emission layers include a first fluorescent emission layer and a second fluorescent emission layer; at least one layer of a first intermediate layer is provided between the first fluorescent emission layer and the exciton generating layer; and at least one layer of a second intermediate layer is provided between the second fluorescent emission layer and the exciton generating layer. 9. The organic electroluminescent element as set forth in claim 1 , further comprising: a block layer provided between the anode and the cathode, the exciton generating layer, the fluorescent emission layer, and the block layer being stacked in this order, and the fluorescent emission layer and the block layer being adjacently laminated. 10. The organic electroluminescent element as set forth in claim 9 , wherein: an excited singlet level and an excited triplet level of each of all materials in the block layer are (i) higher than respective excited singlet level and excited triplet level of the fluorescent emission material in the fluorescent emission layer that is adjacent to the block layer and (ii) higher than respective excited singlet level and excited triplet level of the thermally activated delayed fluorescent material in the exciton generating layer. 11. The organic electroluminescent element as set forth in claim 1 , wherein: a plurality of exciton generating layers are provided between the anode and the cathode, each of the plurality of exciton generating layers being said exciton generating layer. 12. The organic electroluminescent element as set forth in claim 11 , wherein: the plurality of exciton generating layers are laminated such that the fluorescent emission layer is sandwiched between any two of the plurality of exciton generating layers. 13. The organic electroluminescent element as set forth in claim 1 , further comprising: a block layer provided between the anode and the cathode, the fluorescent emission layer, the exciton generating layer, and the block layer being stacked in this order, and the exciton generating layer and the block layer being adjacently laminated. 14. The organic electroluminescent element as set forth in claim 13 , wherein: an excited singlet level and an excited triplet level of each of all materials in the block layer are (i) higher than respective excited singlet level and excited triplet level of the thermally activated delayed fluorescent material in the exciton generating layer that is adjacent to the block layer and (ii) higher than respective excited singlet level and excited triplet level of the fluorescent emission material in the fluorescent emission layer. 15. The organic electroluminescent element as set forth in claim 1 , wherein: at least one layer of an intermediate layer is provided between the exciton generating layer and the fluorescent emission layer. 16. The organic electroluminescent element as set forth in claim 15 , wherein: an excited singlet level and an excited triplet level of each of all materials in the intermediate layer are (i) higher than respective excited singlet level and excited triplet level of the fluorescent emission material in the fluorescent emission layer and (ii) higher than respective excited singlet level and excited triplet level of the thermally activated delayed fluorescent material in the exciton generating layer. 17. The organic electroluminescent element as set forth in claim 1 , wherein: the exciton generating layer contains a material different from the thermally activated delayed fluorescent material; an excited singlet level and an excited triplet level of each of all materials which are contained in the exciton generating layer and are different from the thermally activated delayed fluorescent material are (i) higher than respective excited singlet level and excited triplet level of the fluorescent emission material and (ii) higher than respective excited singlet level and excited triplet level of the thermally activated delayed fluorescent material in the exciton generating layer. 18. The organic electroluminescent element as set forth in claim 1 , wherein: the fluorescent emission layer contains a material different from the fluorescent emission material; an excited singlet level and an excited triplet level of each of all materials other than the fluorescent emission material in the fluorescent emission layer are (i) higher than respective excited singlet level and excited triplet level of the fluorescent emission material and (ii) higher than respective excited singlet level and excited triplet level of the thermally activated delayed fluorescent material in the exciton generating layer.