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Controlling the feature sizes of 3D bicontinuous nanoporous (3DNP) materials is essential for their advanced applications in catalysis, sensing, energy systems, etc., requiring high specific surface area. However, the intrinsic coarsening of nanoporous materials naturally reduces their surface energy leading to the deterioration of physical properties over time, even at ambient temperatures. A novel...
In article number 1906160, Soo‐Hyun Joo, Hidemi Kato, and co‐workers pioneer a novel high‐entropy design strategy for the synthesis of nanoporous materials with exceptional thermal stability at elevated temperatures. Multiprincipal element alloying overcomes the universal relationship of coarsening via suppressed surface diffusion, and the preservation of size‐related physical properties is the key...
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