烧结
化学
催化作用
原子层沉积
纳米晶
铂金
纳米技术
纳米颗粒
化学工程
沉积(地质)
图层(电子)
材料科学
有机化学
古生物学
沉积物
工程类
生物
作者
Gennaro Liccardo,Melissa C. Cendejas,Shyama Charan Mandal,Michael L. Stone,Stephen Porter,Bang Nhan,Abinash Kumar,Jacob Smith,Philipp N. Pleßow,Lynette Cegelski,Jorge Osio-Norgaard,Frank Abild‐Pedersen,Miaofang Chi,Abhaya K. Datye,Stacey F. Bent,Matteo Cargnello
摘要
Platinum exhibits desirable catalytic properties, but it is scarce and expensive. Optimizing its use in key applications such as emission control catalysis is important to reduce our reliance on such a rare element. Supported Pt nanoparticles (NPs) used in emission control systems deactivate over time because of particle growth in sintering processes. In this work, we shed light on the stability against sintering of Pt NPs supported on and encapsulated in Al
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(2025-6-4)
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