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The Morphologically Controlled Synthesis and Application of Mesoporous Alumina Spheres.

Yadian XieLanxing GaoMiaoxuan XueYanqing HouBo YangLingyun ZhouXin Tong
Published in: Molecules (Basel, Switzerland) (2023)
The control of alumina morphology is crucial yet challenging for its various applications. Unfortunately, traditional methods for preparing alumina particles suffer from several limitations such as irregular morphology, poor dispersibility, and restricted application areas. In this study, we develop a novel method for preparing spherical mesoporous alumina using chitin and Pluronic P123 as mixed templates. The effects of reaction temperature, time, and the addition of mixed templates on the phase structure, micromorphology, and optical absorption properties of the samples were investigated. The experimental results indicate that lower temperature and shorter reaction time facilitated the formation of spherical mesoporous alumina with excellent CO 2 adsorption capacity. The periodic density functional theory (DFT) calculations demonstrate that both the (110) and (100) surfaces of γ-Al 2 O 3 can strongly adsorb CO 2 . The difference in the amount of CO 2 adsorbed by Al 2 O 3 is mainly due to the different surface areas, which give different numbers of exposed active sites. This approach introduces a novel strategy for utilizing biological compounds to synthesize spherical alumina and greatly enhances mesoporous alumina's application efficiency in adsorption fields. Moreover, this study explored the electrochemical performance of the synthesized product using cyclic voltammetry, and improved loading of electrocatalysts and enhanced electrocatalytic activity were discovered.
Keyphrases
  • density functional theory
  • molecular dynamics
  • metal organic framework
  • staphylococcus aureus
  • molecular dynamics simulations
  • mass spectrometry
  • high speed
  • crystal structure