Optimized Preparation of Nanosized Hollow SSZ-13 Molecular Sieves with Ultrasonic Assistance.

Liang Zhou,Yiwei Luo,Runlin Han,Jinqu Wang,Yuxuan Tao

doi:10.3390/nano10112298

Liang Zhou, Yiwei Luo + Show 3 more

Open Access

https://doi.org/10.3390/nano10112298

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Abstract

Because of its unique eight-membered ring pore structure and the arrangement of cations in its structure, the SSZ-13 molecular sieve has a higher affinity for CO2 than other gases, meaning it has attracted more attention than other porous materials for CO2 adsorption. However, the expensive template and long preparation time limits the industrial production of SSZ-13. In this work, a hollow structure was successfully introduced into the nanosized SSZ-13 molecular sieve with ultrasonic treatment. The effects of the amount of seed added and the ultrasonic time on the structure were investigated. When the amount of seed added was 0.5 wt.% and the ultrasonic time was 60 min, the sample showed a hollow cubic crystal with a diameter of about 50 nm. The specific surface area reached 791.50 m2/g, and the mesoporous ratio was 66.3%. The samples were tested for CO2 adsorption performance at 298 K. It was found that the hollow sample prepared in this work has higher CO2 adsorption capacity compared with the SSZ-13 zeolite prepared with conventional methods. When the adsorption pressure was 0.27 bar, the adsorption amount reached 2.53 mmol/g. The hollow SSZ-13 molecular sieve reached a CO2 adsorption capacity of 4.24 mmol/g at 1 bar.

Highlights

The emission of greenhouse gases due to burning fossil fuels causes serious global warming, which is one of the most pressing issues in the world
With the increase of seed content, the CHA characteristic peaks changed little while the intensity was improved gradually
When studying the effect of seed content and ultrasonic time on the structure of SSZ-13 crystal as well as characterizing the samples with XRD, SEM, N2 physical adsorption, and CO2 adsorption, it was found that the crystallinity of samples increased with the increase of seed content while the crystal size decreased with the low sized distribution

Summary

Introduction

The emission of greenhouse gases due to burning fossil fuels causes serious global warming, which is one of the most pressing issues in the world To address this issue, the development of facile and cost-effective methods to reduce industrial CO2 emissions has attracted great attention [1]. For an efficient capture of CO2, the zeolite should have high capacity, high selectivity, good hydrothermal stability, and the ease of regeneration [3], which has promoted much research to synthesize new types of zeolite with special structures and decrease the cost of the synthesis process. The ultrasonic oscillation was utilized as a direct and facile synthetic route to form hollow zeolite with high crystallinity and adjust the structure of SSZ-13 without adding F−. The effects of seed concentration and ultrasonic time on the structure of SSZ-13 were studied in detail, and CO2 adsorption performance was investigated

Synthesis of SSZ-13

Characterization

Effect of the Amount of Seed on the Sample Structure

Effect of the Ultrasonic Time on the Sample Structure

CO2 Adsorption Performance of Hollow SSZ-13

Conclusions