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Palladium‐based membranes are currently the most advanced membranes for hydrogen separation and are on the verge of practical application. However, the search for alternative membranes continues in an effort to lower their cost and susceptibility to poisons. Here for the first time we report a novel sandwiched liquid metal membrane (SLiMM) for hydrogen separation. Permeation experiments indicate that...
There is much ongoing research on developing dense metal membranes based on palladium and its alloys for producing high purity hydrogen, e.g., for fuel cells. Such membranes are almost exclusively permeable to hydrogen in a feed gas mixture via the following steps: (s 1 ) dissociative adsorption on the surface; (s 2 ) sub-surface dissolution; (s 3 ) diffusion of interstitial...
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