Abstract: A thin-film battery that includes an adhesive layer is provided. The thin-film battery may have active layer (such as an anode, a cathode, an electrolyte, an anode current collector, and a cathode current collector) and a thin-film substrate made of ceramic or glass. The adhesive layer may be deposited over a portion of the active layer and the substrate. This may provide for a more stable, flexible, and mechanically sound thin-film battery.

Abstract: A cell plate of a redox flow battery adapted to provide laminar flow. The cell plate may have a flow frame including a plurality of feed channels interdigitated with a plurality of exhaust channels so as to channel the electrolyte solution through the cell plate and induce proton exchange between a catholyte portion and an anolyte portion. The feed channels and exhaust channels are sized and spaced to manipulate the flowrate and pressure of the electrolyte solution channeled therethrough. In some aspects, the flowrate and pressure are controlled such that the fluid pumps may have a reduced size and speed, thereby reducing the parasitic load on the system and increasing system efficiencies.

Abstract: Materials for use in proton transport characterized by several formulas are disclosed. Mixed ion and electron conductors may include metals and/or ceramic electron conductors and a proton conducting material. Hydrogen separation membranes may include porous layers and an electolyte layer including a proton conducting material and an electron conductor. Hydrogen separation membranes may be formed by thermal spray techniques. Hydrogen separation membranes may include a catalyst layer. A method of separating hydrogen from a mixed gas stream includes passing the mixed gas through a first porous layer to an electrolyte layer, dissociating protons and electrons, diffusing the protons and electrons through the electrolyte layer, recombining them, and passing molecular hydrogen through a second porous layer.