Display panel having intra-substrate filler configuration, method of manufacturing such a display panel, and display device

What is claimed is: 1. A display panel, comprising: a first base substrate; a plurality of light sources on the first base substrate; a second base substrate opposite to the first base substrate; a light conversion structure on the second base substrate, wherein the light conversion structure comprises at least a plurality of quantum dot structures; a plurality of extinction structures on a side of the light conversion structure facing the first base substrate, wherein a first channel is formed between any two adjacent extinction structures; a plurality of first optical structures on the side of the light conversion structure facing the first base substrate, wherein each of the plurality of first optical structures is located in the first channel between two adjacent extinction structures; and a filler portion between the first base substrate and the second base substrate, wherein the filler portion is located between the plurality of light sources and the plurality of first optical structures, wherein the filler portion contains a material with a refractive index greater than that of a material of the first optical structure, and the extinction structure contains a light-absorbing material; and wherein orthographic projections of the plurality of light sources on the first base substrate at least partially overlap orthographic projections of the plurality of first optical structures on the first base substrate, an orthographic projection of the light conversion structure on the first base substrate at least partially overlaps the orthographic projections of the plurality of first optical structures on the first base substrate, and the orthographic projections of the plurality of first optical structures on the first base substrate fall within an orthographic projection of the filler portion on the first base substrate. 2. The display panel of claim 1 , further comprising an extinction layer on the first base substrate, wherein the extinction layer contains a light-absorbing material, the extinction layer is located on a side of the plurality of light sources facing the second base substrate, and an orthographic projection of each light source on the first base substrate is surrounded by the orthographic projection of the extinction layer on the first base substrate. 3. The display panel of claim 2 , further comprising a light source protection layer on the first base substrate, wherein the light source protection layer is located on a side of the light source facing the second base substrate, and an orthographic projection of the light source protection layer on the first base substrate covers the orthographic projection of the light source on the first base substrate; and wherein the light source protection layer contains a material with a refractive index smaller than that of the material of the filler portion. 4. The display panel of claim 3 , wherein: a surface of the filler portion facing the second base substrate is in contact with a surface of the first optical structure away from the second base substrate; and/or a surface of the filler portion away from the second base substrate is in contact with a surface of the light source protection layer away from the first base substrate. 5. The display panel of claim 4 , wherein a thickness of the extinction structure is designed such that a part of a light ray refracted at an interface between the filler portion and the first optical structure is absorbed by the extinction structure, wherein the part of the light ray has an exit angle greater than a second specified angle, and wherein the extinction structure has a thickness between 8 microns and 15 microns. 6. The display panel of claim 2 , wherein a surface of the extinction layer facing the second base substrate is closer to the second base substrate than a surface of the light source facing the second base substrate, so as to allow the extinction layer to absorb at least a part of a light ray emitted from the light source and having an exit angle greater than a first specified angle. 7. The display panel of claim 1 , further comprising a plurality of light blocking structures on the second base substrate, wherein the plurality of light blocking structures are located between a layer where the extinction structure is located and a layer where the light conversion structure is located; and wherein the light blocking structure contains a light blocking material, a second channel is formed between any two adjacent light blocking structures, an orthographic projection of the second channel on the second base substrate falls within an orthographic projection of the first channel on the second base substrate, and a plurality of first channels and a plurality of second channels are respectively connected to form a plurality of light inlet channels. 8. The display panel of claim 7 , further comprising a plurality of quantum dot protection structures on the second base substrate, wherein the plurality of quantum dot protection structures are located between the light conversion structure and the first optical structure, and orthographic projections of the plurality of quantum dot protection structures on the second base substrate are respectively located within orthographic projections of the plurality of second channels on the second base substrate. 9. The display panel of claim 8 , further comprising a plurality of barrier wall structures on the second base substrate, wherein the plurality of barrier wall structures are located between the second base substrate and the plurality of extinction structures, and orthographic projections of the plurality of barrier wall structures on the second base substrate are respectively located within orthographic projections of the plurality of extinction structures on the second base substrate. 10. The display panel of claim 9 , wherein a pixel opening is formed between any two adjacent barrier wall structures, orthographic projections of a plurality of pixel openings on the first base substrate respectively cover orthographic projections of the plurality of light inlet channels on the first base substrate, and orthographic projections of the plurality of pixel openings on the first base substrate respectively cover orthographic projections of the plurality of light sources on the first base substrate. 11. The display panel of claim 10 , wherein the pixel opening comprises a first sub-pixel opening and a second sub-pixel opening, the plurality of quantum dot structures comprise a first quantum dot structure configured to convert light with a third range of wavelength incident thereon into light with a first range of wavelength, and a second quantum dot structure configured to convert light with the third range of wavelength incident thereon into light with a second range of wavelength, and the first range of wavelength, the second range of wavelength and the third range of wavelength are different from each other; wherein the first quantum dot structure is located in the first sub-pixel opening, and the second quantum dot structure is located in the second sub-pixel opening; and wherein the pixel opening further comprises a third sub-pixel opening, and the display panel further comprises scattering particles provided in the third sub-pixel opening. 12. The display panel of claim 9 , wherein: the filler portion has a thickness between 3 microns and 8 microns; and/or the light blocking structure has a thickness between 0.5 microns and 2 microns; and/or the extinction layer has a thickness between 2 microns and 3 microns; and/or the light source protection layer has a thickness between 500 nanometers and 1000 nanometers; and/or th