Hongfei Xiao scite author profile

While utilization of transitional metals as a promoter has been extensively studied to enhance the activity of Pt-based catalysts for the oxidation of formaldehyde (HCHO), there is still a lack of well elucidated property−function relationship for the rational selection of a promoter in catalyst design. Herein, we modified a Pt/ CeO 2 catalyst with two transitional metal dopants (i.e., Mn and Cu) that showed negligible influence on the physical structure of the Pt− CeO 2 matrix but distinct effects on the activity of the catalyst. Complementary characterizations combined with density functional theory modeling revealed that the transitional metal dopants significantly modified the electronic structure of the catalyst and shifted the d-band of Pt to higher energy with different extents, which may tune the bonding strength of HCHO/intermediates with the Pt−CeO 2 interface domain. The catalyst with moderate bonding strength (i.e., Pt−Mn/CeO 2 ) displayed the highest reactivity under the ambient condition, while Pt−Cu/CeO 2 with the highest bonding strength showed a dramatically decreased activity. No correlation was observed between the abundancy of the active oxygen and catalytic activity, likely due to the oxygen supply having a much higher rate than the rate-determining step. This work contributes to the elucidation about the property−function relationship of a transitional metal dopant in Pt-based catalysts for the oxidation of HCHO.

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Layer-Wise Floorplan Extraction for Automatic Urban Building Reconstruction

Wei

Wang

Fan

et al. 2016

IEEE Trans. Visual. Comput. Graphics

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Urban building reconstruction is an important step for urban digitization and realisticvisualization. In this paper, we propose a novel automatic method to recover urban building geometry from 3D point clouds. The proposed method is suitable for buildings composed of planar polygons and aligned with the gravity direction, which are quite common in the city. Our key observation is that the building shapes are usually piecewise constant along the gravity direction and determined by several dominant shapes. Based on this observation, we formulate building reconstruction as an energy minimization problem under the Markov Random Field (MRF) framework. Specifically, point clouds are first cutinto a sequence of slices along the gravity direction. Then, floorplans are reconstructed by extracting boundaries of these slices, among which dominant floorplans are extracted and propagated to other floors via MRF. To guarantee correct propagation, a new distance measurement for floorplans is designed, which first encodes floorplans into strings and then calculates distances between their corresponding strings. Additionally, an image based editing method is also proposed to recover detailed window structures. Experimental results on both synthetic and real data sets have validated the effectiveness of our method.

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Interface-assisted phase transition in MOF-derived MoS₂/CoS₂ heterostructures for highly efficient dual-pH hydrogen evolution and overall water splitting

Liu

Wang³

et al. 2022

J. Mater. Chem. A

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Hongfei Xiao

Electronic Modification by Transitional Metal Dopants to Tune the Oxidation Activity of Pt-CeO₂-Based Catalysts

Layer-Wise Floorplan Extraction for Automatic Urban Building Reconstruction

Interface-assisted phase transition in MOF-derived MoS₂/CoS₂ heterostructures for highly efficient dual-pH hydrogen evolution and overall water splitting

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Hongfei Xiao

Electronic Modification by Transitional Metal Dopants to Tune the Oxidation Activity of Pt-CeO2-Based Catalysts

Layer-Wise Floorplan Extraction for Automatic Urban Building Reconstruction

Interface-assisted phase transition in MOF-derived MoS2/CoS2 heterostructures for highly efficient dual-pH hydrogen evolution and overall water splitting

Contact Info

Product

Resources

About

Electronic Modification by Transitional Metal Dopants to Tune the Oxidation Activity of Pt-CeO₂-Based Catalysts

Interface-assisted phase transition in MOF-derived MoS₂/CoS₂ heterostructures for highly efficient dual-pH hydrogen evolution and overall water splitting