Active layer/membrane arrangement for a hydrogen production device and assembly comprising said arrangement suitable for a porous current collector and method for producing the arrangement

The invention claimed is: 1. An active layer/membrane assembly intended to be incorporated into a hydrogen production device, said assembly comprising: a collector; an active layer in contact with a membrane capable of exchanging ions, said active layer comprising catalyst particles; wherein the catalyst particles are particles based on iridium, or on iridium oxide; and support particles in contact with the active layer; wherein the support particles are titanium particles; wherein at least one of the support particles is large enough to be partially incorporated in said active layer so that a portion of the at least one of said support particles emerges from a surface of said active layer in contact with the collector while a remaining portion of the least one of the support particles is within said active layer, wherein a size of the at least one support particle is larger than a thickness of said active layer; wherein the surface of said active layer in contact with the collector is opposite to a surface of said active layer in contact with said membrane. 2. The active layer/membrane assembly as claimed in claim 1 , wherein the support particles have a size of greater than 1.2 micron, the thickness of the active layer being of the order of a micron. 3. The active layer/membrane assembly as claimed in claim 1 , wherein the membrane capable of exchanging ions comprises an ionomer. 4. The active layer/membrane assembly as claimed in claim 1 , wherein the degree of catalyst loading of said active layer is less than around 0.3 mg/cm 2 . 5. A unit comprising an active layer/membrane assembly as claimed in claim 1 , said collector having pores with a porosity such that the support particles emerging from said active layer penetrate at the surface into the pores of said collector. 6. The unit as claimed in claim 5 , wherein said collector is a porous titanium material. 7. The unit as claimed in claim 5 , wherein said collector is an assembly of grids. 8. A process for manufacturing an assembly as claimed in claim 1 , comprising: the deposition of an active layer and particles referred to as support particles onto a membrane capable of exchanging ions; contacting the active layer and particles with a collector on a side opposite the membrane capable of exchanging ions; wherein the active layer comprises catalyst particles based on iridium, or on iridium oxide; wherein the support particles comprise titanium particles; wherein at least one of the support particles is large enough to be partially incorporated in said active layer so that a portion of the at least one of said support particles emerges from a surface of said active layer in contact with the collector while a remaining portion of the least one of the support particles is within said active layer, wherein a size of the at least one support particle is larger than a thickness of said active layer. 9. The process for manufacturing an assembly as claimed in claim 8 , wherein the production of said deposited active layer and particles comprises the production of an ink added to said membrane capable of exchanging ions, said ink comprising a powder of said catalyst particles and said support particles, an ionomer, and a mixture of water and alcohol. 10. The process for manufacturing an assembly as claimed in claim 9 , comprising: the spraying of the ink onto a polytetrafluoroethene support; the transfer by hot pressing onto said membrane capable of exchanging ions.