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Ultrasmall Particle Sizes of Walnut‐Like Mesoporous Silica Nanospheres with Unique Large Pores and Tunable Acidity for Hydrogenating Reaction

Di Hu, Huiping Li, Jinlin Mei, Cong Liu, Qian Meng, Chengkun Xiao, Gang Wang, Yu Shi, Aijun Duan

2020Small16 citationsDOI

Abstract

Abstract The large particle sizes, inert frameworks, and small pore sizes of mesoporous silica nanoparticles greatly restrict their application in the acidic catalysis. The research reports a simple and versatile approach to synthesize walnut‐like mesoporous silica nanospheres (WMSNs) with large tunable pores and small particle sizes by assembling with Beta seeds. The as‐synthesized Beta‐WMSNs composite materials possess ultrasmall particulate sizes (70 nm), large radial mesopores (≈30 nm), and excellent acidities (221.6 mmol g −1 ). Ni 2 P active phase is supported on the surface of Beta‐WMSNs composite materials, and it is found that the obtained composite spherical materials can reduce the Ni 2 P particle sizes from 8.4 to 4.8 nm with the increasing amount of Beta seeds, which can provide high accessibilities of reactants to the active sites. Furthermore, the unique large pores and ultrasmall particle sizes of Beta‐WMSNs samples facilitate the reduction of the diffusion resistance of reactants due to the short transporting length, thus the corresponding Ni 2 P/Beta‐WMSNs composite catalysts show the excellent hydrogenating activity compared to the pure Ni 2 P/WMSNs catalyst.

Topics & Concepts

Mesoporous materialMaterials scienceCatalysisParticle (ecology)Composite numberParticle sizeMesoporous silicaChemical engineeringInertNanoparticleDiffusionSpecific surface areaPhase (matter)NanotechnologyComposite materialChemistryOrganic chemistryPhysicsThermodynamicsEngineeringOceanographyGeologyCatalysis and Hydrodesulfurization StudiesMesoporous Materials and Catalysis
Ultrasmall Particle Sizes of Walnut‐Like Mesoporous Silica Nanospheres with Unique Large Pores and Tunable Acidity for Hydrogenating Reaction | Litcius