Your search keyword '"Liu, Zhaohui"' showing total 11 results

1. Investigating the Sole Olefin-Based Cycle in Small-Cage MCM-35-Catalyzed Methanol-to-Olefins Reactions.

Author

Liu, Zhaohui, Mao, Min, Yangcheng, Ruixue, and Lv, Shuang

Subjects

*ZEOLITES, *PROPENE, *METHANOL, *CATALYSTS, *TOPOLOGY

Abstract

Small-pore zeolites catalyze the methanol-to-olefins (MTO) reaction via a dual-cycle mechanism, encompassing both olefin- and aromatic-based cycles. Zeolite topology is crucial in determining both the catalytic pathway and the product selectivity of the MTO reaction. Herein, we investigate the mechanistic influence of MCM-35 zeolite on the MTO process. The structural properties of the as-synthesized MCM-35 catalyst, including its confined cages (6.19 Å), were characterized, confirming them as the catalytic centers. Then, the MTO reactions were systematically performed and investigated over a MCM-35 catalyst. Feeding pure methanol to the reactor yielded minimal MTO activity despite the formation of some aromatic species within the zeolite. The results suggest that the aromatic-based cycle is entirely suppressed in MCM-35, preventing the simultaneous occurrence of the olefin-based cycle. However, cofeeding a small amount of propene in methanol can obviously enhance the methanol conversion under the same studied reaction conditions. Thus, the exclusive operation of the olefin-based cycle in the MTO reaction, independent of the aromatic-based cycle, was demonstrated in MCM-35 zeolite. [ABSTRACT FROM AUTHOR]

Published

2024

2. Diterpenoids with Schistosomula-Killing and Anti-Fibrosis Activities In Vitro from the Leaves of Croton tiglium

Author

Li, Li, primary, Zhao, Biqing, additional, Zheng, Xiaoxiao, additional, Liu, Zhaohui, additional, Zou, Huan, additional, Qin, Li, additional, and Zhou, Xiaojiang, additional

Published

2024

3. In Situ Synthesis of C-N@NiFe2O4@MXene/Ni Nanocomposites for Efficient Electromagnetic Wave Absorption at an Ultralow Thickness Level

Author

Sun, Qing, primary, Yang, Xin, additional, Shu, Tie, additional, Yang, Xianfeng, additional, Qiao, Min, additional, Wang, Dashuang, additional, Liu, Zhaohui, additional, Li, Xinghua, additional, Rao, Jinsong, additional, Zhang, Yuxin, additional, Yang, Pingan, additional, and Yao, Kexin, additional

Published

2022

4. Recent Insights into Cu-Based Catalytic Sites for the Direct Conversion of Methane to Methanol

Author

Mao, Min, primary, Liu, Lingmei, additional, and Liu, Zhaohui, additional

Published

2022

5. MOFs-Derived Three-Phase Microspheres: Morphology Preservation and Electromagnetic Wave Absorption

Author

Yang, Xin, primary, Shu, Tie, additional, Yang, Xianfeng, additional, Qiao, Min, additional, Wang, Dashuang, additional, Li, Xinghua, additional, Rao, Jinsong, additional, Liu, Zhaohui, additional, Zhang, Yuxin, additional, Yang, Pingan, additional, and Yao, Kexin, additional

Published

2022

6. Relationship between Apolipoprotein E Genotype and Lipoprotein Profile in Patients with Coronary Heart Disease

Author

Lin, Yahui, primary, Yang, Qiong, additional, Liu, Zhaohui, additional, Su, Baoman, additional, Xu, Fen, additional, Li, Yang, additional, Kang, Jinsuo, additional, and Zhou, Zhou, additional

Published

2022

7. Lightweight, Low-Cost Co2SiO4@diatomite Core-Shell Composite Material for High-Efficiency Microwave Absorption

Author

Zhang, Yifan, primary, Cai, Rui, additional, Wang, Dashuang, additional, Li, Kailin, additional, Sun, Qing, additional, Xiao, Yuntao, additional, Teng, Hao, additional, Huang, Xiaohan, additional, Sun, Tao, additional, Liu, Zhaohui, additional, Yao, Kexin, additional, Zhang, Yuxin, additional, and Yang, Pingan, additional

Published

2022

8. Enhanced Electromagnetic Wave Absorption Properties of Ultrathin MnO2 Nanosheet-Decorated Spherical Flower-Shaped Carbonyl Iron Powder

Author

Qu, Zhengwei, primary, Wang, Yi, additional, Yang, Pingan, additional, Zheng, Wei, additional, Li, Nan, additional, Bai, Jingying, additional, Zhang, Youwei, additional, Li, Kailin, additional, Wang, Dashuang, additional, Liu, Zhaohui, additional, Yao, Kexin, additional, Li, Rui, additional, and Zhang, Yuxin, additional

Published

2021

9. In Situ Synthesis of C-N@NiFe 2 O 4 @MXene/Ni Nanocomposites for Efficient Electromagnetic Wave Absorption at an Ultralow Thickness Level.

Author

Sun, Qing, Yang, Xin, Shu, Tie, Yang, Xianfeng, Qiao, Min, Wang, Dashuang, Liu, Zhaohui, Li, Xinghua, Rao, Jinsong, Zhang, Yuxin, Yang, Pingan, and Yao, Kexin

Subjects

ELECTROMAGNETIC wave absorption, MAGNETIC materials, NANOCOMPOSITE materials, DIELECTRIC properties, COMPOSITE materials

Abstract

Recently, the development of composite materials composed of magnetic materials and MXene has attracted significant attention. However, the thickness and microwave absorption performance of the composite is still barely satisfactory. In this work, the C-N@NiFe2O4@MXene/Ni nanocomposites were successfully synthesized in situ by hydrothermal and calcination methods. Benefiting from the introduction of the carbon-nitrogen(C-N) network structure, the overall dielectric properties are improved effectively, consequently reducing the thickness of the composite while maintaining excellent absorption performance. As a result, the minimum reflection loss of C-N@NiFe2O4@MXene/Ni can reach −50.51 dB at 17.3 GHz at an ultralow thickness of 1.5 mm, with an effective absorption bandwidth of 4.95 GHz (13.02–18 GHz). This research provides a novel strategy for materials to maintain good absorption performance at an ultralow thickness level. [ABSTRACT FROM AUTHOR]

Published

2023

10. Lightweight, Low-Cost Co 2 SiO 4 @diatomite Core-Shell Composite Material for High-Efficiency Microwave Absorption.

Author

Zhang, Yifan, Cai, Rui, Wang, Dashuang, Li, Kailin, Sun, Qing, Xiao, Yuntao, Teng, Hao, Huang, Xiaohan, Sun, Tao, Liu, Zhaohui, Yao, Kexin, Zhang, Yuxin, and Yang, Pingan

Subjects

ELECTROMAGNETIC wave absorption, MICROWAVE materials, COMPOSITE materials, CARBON dioxide, BIOMIMETIC materials, ABSORPTION

Abstract

The porous and biomimetic cobalt silicate@diatomite (Co2SiO4@diatomite) was successfully synthesized by a two-step method, including the hydrothermal method and calcination to improve the electromagnetic wave absorption property. Different hydrothermal times were well-tuned for Co2SiO4@diatomite composites with different loadings of Co2SiO4. Interestingly, the Co2SiO4@diatomite composites (6 h, 25 wt%) had a smaller minimum reflection loss. Moreover, the minimum reflection loss (RLmin) could reach −12.03 dB at 16.64 GHz and the matched absorber thickness was 10 mm, while the effective absorption bandwidth (EAB, RL ≤ −10 dB) could be 1.92 GHz. In principle, such findings indicate that Co2SiO4@diatomite nanocomposites could be a promising candidate for high-efficiency microwave absorption capability. [ABSTRACT FROM AUTHOR]

Published

2022

11. Enhanced Electromagnetic Wave Absorption Properties of Ultrathin MnO 2 Nanosheet-Decorated Spherical Flower-Shaped Carbonyl Iron Powder.

Author

Qu, Zhengwei, Wang, Yi, Yang, Pingan, Zheng, Wei, Li, Nan, Bai, Jingying, Zhang, Youwei, Li, Kailin, Wang, Dashuang, Liu, Zhaohui, Yao, Kexin, Li, Rui, and Zhang, Yuxin

Subjects

ELECTROMAGNETIC wave absorption, IRON powder, OXIDATION-reduction reaction, IRON composites

Abstract

In this work, spherical flower-shaped composite carbonyl iron powder@MnO2 (CIP@MnO2) with CIP as the core and ultrathin MnO2 nanosheets as the shell was successfully prepared by a simple redox reaction to improve oxidation resistance and electromagnetic wave absorption properties. The microwave-absorbing properties of CIP@MnO2 composites with different filling ratios (mass fractions of 20%, 40%, and 60% after mixing with paraffin) were tested and analyzed. The experimental results show that compared with pure CIP, the CIP@MnO2 composites have smaller minimum reflection loss and a wider effective absorption bandwidth than CIP (RL < −20 dB). The sample filled with 40 wt% has the best comprehensive performance, the minimum reflection loss is −63.87 dB at 6.32 GHz, and the effective absorption bandwidth (RL < −20 dB) reaches 7.28 GHz in the range of 5.92 GHz–9.28 GHz and 11.2 GHz–15.12 GHz, which covers most C and X bands. Such excellent microwave absorption performance of the spherical flower-like CIP@MnO2 composites is attributed to the combined effect of multiple beneficial components and the electromagnetic attenuation ability generated by the special spherical flower-like structure. Furthermore, this spherical flower-like core–shell shape aids in the creation of discontinuous networks, which improve microwave incidence dispersion, polarize more interfacial charges, and allow electromagnetic wave absorption. In theory, this research could lead to a simple and efficient process for producing spherical flower-shaped CIP@MnO2 composites with high absorption, a wide band, and oxidation resistance for a wide range of applications. [ABSTRACT FROM AUTHOR]

Published

2022