Method of manufacturing a ceramic light transmitting barrier cell, and a barrier cell produced by that method

The invention claimed is: 1. A method of manufacturing a ceramic light transmitting barrier cell for enclosing a luminescent material in a cavity of the ceramic light transmitting barrier cell, the luminescent material being configured to absorb a portion of light impinging on the luminescent material according to an absorption color distribution and to convert a part of the absorbed light into light having an emission color distribution, the method comprises the stages of: forming a part of a pre-formed barrier cell by providing a material mix into a first mold, the material mix comprising a binder and inorganic particles for forming a light transmitting ceramic material, providing a sacrificial layer on the part for defining a cavity of the pre-formed barrier cell, the sacrificial layer comprising a sacrificial material for being sacrificed in the method of manufacturing the ceramic light transmitting barrier cell, forming a remainder part of the pre-formed barrier cell by providing the material mix into a second mold, the second mold comprising the part with the sacrificial layer, at least partially removing the sacrificial layer from the pre-formed barrier cell thereby obtaining the cavity of the pre-formed barrier cell. 2. A method according to claim 1 , further comprising the stage of: applying heat to the pre-formed barrier cell for at least partially removing the binder and for transforming the pre-formed barrier cell into the ceramic light transmitting barrier cell. 3. A method according to claim 1 , wherein the stage of forming a part and of forming the remainder part is at least performed by one of: injection molding, slip casting, pressure casting or low pressure injection molding. 4. A method according to claim 1 , further comprising the stage of: after the stage of forming the remainder part, at least partially removing the binder from the pre-formed barrier cell by providing a dissolving liquid to the pre-formed barrier cell which at least partially removes the binder from the pre-formed barrier cell. 5. A method according to claim 1 , wherein the sacrificial material is at least one of: a first organic material which is soluble in the dissolving liquid or in another dissolving liquid, a second organic material which decomposes into volatile components when it is heated to a thermal decomposition temperature at which a thermal decomposition of the second organic material starts, a material which depolymerizes under the influence of heat and/or a catalyst, a material which becomes soluble in a specific dissolving liquid as a result of a photochemical reaction, a material which becomes liquid when it is heated above its melting temperature, a material which may be etched away by an etching liquid which does not react with the inorganic particles. 6. A method according to claim 5 , wherein the stage of at least partially removing the sacrificial layer comprises at least one of the stages: if the sacrificial material is the first organic material which is soluble in the or the another dissolving liquid, providing the or the another dissolving liquid to the pre-formed barrier cell in which the sacrificial material at least partially dissolves, if the sacrificial material is the second organic material which decomposes into volatile components when it is heated to the decomposition temperature, heating the pre-formed barrier cell to a temperature above the thermal decomposition temperature and removing the decomposed sacrificial material, if the sacrificial material is the material which depolymerizes under the influence of heat and/or the catalyst, providing the catalyst to the pre-formed barrier cell and heating the pre-formed barrier cell to a specific temperature that is high enough to obtain the depolymerization, if the sacrificial material is the material which becomes soluble in the specific dissolving liquid as the results of the photochemical reaction, providing light to the pre-formed barrier cell after which the specific dissolving liquid is provided to the barrier cell, if the sacrificial material is the material which becomes liquid when it is heated above its melting temperature, heating the pre-formed barrier cell to a temperature above the melting temperature and removing the liquid by means of wicking, if the sacrificial material is the material which may be a material which may be etched away by the etching liquid, providing an etching liquid to the pre-formed barrier cell. 7. A method according to claim 2 , wherein, in the stage of forming the remainder part, a channel is left open between the cavity and the outside of the pre-formed barrier cell, and the method comprising also the stages of: after the stage of heating to obtain the ceramic light transmitting barrier cell, providing the luminescent material into the cavity via the channel, sealing the channel with an air-tight and liquid-tight seal. 8. A method according to claim 1 , wherein the stage of providing a sacrificial layer comprises at least one of: i) manufacturing the sacrificial layer by means of injection molding, slip casting or pressure casting, ii) providing a sheet of the sacrificial material on the part, iii) printing a layer of the sacrificial material on the part, iv) dispensing a layer of sacrificial material on the part, v) laminating the part with a foil of the sacrificial layer. 9. A method according to claim 1 , wherein the inorganic particles comprise at least one of the materials: polycrystalline aluminum oxide, yttrium aluminum garnet, spinel, yttrium oxide, aluminum oxynitride, cubic zirconium dioxide. 10. A method according to claim 3 , wherein, if the part and the remainder part are formed by means of injection molding, the binder comprises at least one of the materials: polyethylene, polypropylene, polyethylene oxide, polystyrene, polyamide. 11. A light transmitting barrier cell for enclosing a luminescent material, the barrier cell comprising a monolithic ceramic structure that is devoid of any insert, the monolithic ceramic structure defining an enclosed cavity for the luminescent material and a channel in communication with the cavity, wherein an outer layer of the barrier cell is impermeable for gasses and liquids. 12. A light transmitting barrier cell, comprising: a monolithic ceramic structure, the monolithic ceramic structure defining an enclosed cavity and a channel in communication with the cavity, and a luminescent material in the cavity, the luminescent material being configured to absorb a portion of light impinging on the luminescent material according to an absorption color distribution and to convert a portion of the absorbed light into light according to an emission color distribution. 13. A barrier cell according to claim 12 , wherein at least one of: the luminescent material comprises particles showing quantum confinement and having at least in one dimension a size in the nanometer range, the particles being selected from the group consisting of quantum dots, quantum rods and quantum tetrapods, the luminescent material comprises inorganic or organic luminescent material. 14. A barrier cell according to claim 12 , further comprising an air-tight and liquid-tight seal to the channel. 15. A light source for emitting light, the light source comprises: a light emitter for emitting light, a barrier cell according to claim 12 , wherein the barrier cell is arranged to receive at least a portion of the light emitted by the light emitter. 16. A barrier cell according to claim 11 further comprising a sacrificial material in the cavity.