Liping Sheng scite author profile

Nitrogen oxides are one of the major sources of air pollution. To remove these pollutants originating from combustion of fossil fuels remains challenging in steel, cement, and glass industries as the catalysts are severely deactivated by SO2 during the low‐temperature selective catalytic reduction (SCR) process. Here, a MnOX/CeO2 nanorod catalyst with outstanding resistance to SO2 deactivation is reported, which is designed based on critical information obtained from in situ transmission electron microscopy (TEM) experiments under reaction conditions and theoretical calculations. The catalysts show almost no activity loss (apparent NOX reaction rate kept unchanged at 1800 µmol g−1 h−1) for 1000 h test at 523 K in the presence of 200 ppm SO2. This unprecedented performance is achieved by establishing a dynamic equilibrium between sulfates formation and decomposition over the CeO2 surface during the reactions and preventing the MnOX cluster from the steric hindrance induced by SO2, which minimized the deactivation of the active sites of MnOX/CeO2. This work presents the ultralong lifetime of catalysts in the presence of SO2, along with decent activity, marking a milestone in practical applications in low‐temperature selective catalytic reduction (SCR) of NOX.

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Inverse infusion processed hierarchical structure towards superhydrophobic coatings with ultrahigh mechanical robustness

Lyu

Peng

et al. 2020

Chemical Engineering Journal

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Comparison of Fabrication Methods of Metal-Organic Framework Optical Thin Films

et al. 2018

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Homogeneous metal-organic frameworks (MOFs)-based optical thin films have attracted increasing attention, since they can potentially be used as active components in optical/opt-electrical devices, and how to fabricate MOF thin films with high quality is the premise of practically using them. Herein, five fabrication methods of MOF films are systematically investigated and compared from the aspects of appearance, reflectivity, micro-morphology, surface roughness, and optical properties of the films. The famous robust Zr-based MOF, UiO-66 (UiO = University of Oslo) is chosen as a model, and the five methods are spin-coating, dip-coating, self-assembly, direct growth, and the stepwise layer by layer growth method. This study provides fundamental support for the application of MOFs in the optical field.

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Transverse vibration of circular graphene sheet-based mass sensor via nonlocal Kirchhoff plate theory

Zhou

Sheng

Shen

2014

Computational Materials Science

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Nonlocal Timoshenko beam theory for vibration of carbon nanotube-based biosensor

Shen

Sheng

et al. 2012

Physica E: Low-dimensional Systems and Nanostructures

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Liping Sheng

Oxide Catalysts with Ultrastrong Resistance to SO₂ Deactivation for Removing Nitric Oxide at Low Temperature

Inverse infusion processed hierarchical structure towards superhydrophobic coatings with ultrahigh mechanical robustness

Comparison of Fabrication Methods of Metal-Organic Framework Optical Thin Films

Transverse vibration of circular graphene sheet-based mass sensor via nonlocal Kirchhoff plate theory

Nonlocal Timoshenko beam theory for vibration of carbon nanotube-based biosensor

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Liping Sheng

Oxide Catalysts with Ultrastrong Resistance to SO2 Deactivation for Removing Nitric Oxide at Low Temperature

Inverse infusion processed hierarchical structure towards superhydrophobic coatings with ultrahigh mechanical robustness

Comparison of Fabrication Methods of Metal-Organic Framework Optical Thin Films

Transverse vibration of circular graphene sheet-based mass sensor via nonlocal Kirchhoff plate theory

Nonlocal Timoshenko beam theory for vibration of carbon nanotube-based biosensor

Contact Info

Product

Resources

About

Oxide Catalysts with Ultrastrong Resistance to SO₂ Deactivation for Removing Nitric Oxide at Low Temperature