Ri-cheng Zhi scite author profile

Herein, CoNi bimetallic metal‐organic framework nanosheets (CoNi−MOFNs) in‐situ grown on Ti3C2Tx MXene (CoNi−MOFNs@MX) were explored as a typical nanocomposite to study the impact of MXene on the electrocatalytic activity of MOF for oxygen evolution reaction (OER). In contrast to previous reports, we observed a passive effect of Ti3C2Tx MXene on the OER performance of CoNi−MOFNs although the electronic conductivity of the nanocomposites was improved. The combined analysis of electrochemical results and atomic valence state characterization demonstrates that the decreased OER activity is likely ascribed to the unfavorable electron donation from Ti3C2Tx MXene, which suppresses the formation of active species for OER from the oxidation of Co2+ and Ni2+ to higher valence states in the nanocomposite. Consequently, more attention needs to be paid to the rational design of nanocomposites with MXenes for electrocatalytic applications.

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Evaluating the value of synchrotron radiation phase-contrast CT imaging in the study of knee joint microstructure

Tang

Zhi

Sun

et al. 2021

E3S Web Conf.

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The knee joint is one of the tissues that often appear diseased, and the pathogenesis owing to its structure. Therefore, the micro-structure of the knee joint was studied by synchrotron radiation phasecontrast CT imaging (SRPCI-CT). The contrast and the sharpness of the reconstructed slice were calculated and analysed. From these results, the layer structure of the joint tissue can be seen. The cartilage layer (including the meniscus) is about 1.44 mm, and the epiphyseal layer is about 2.25 mm, which conforms to the actual situation of rat knees. From the 3D images, the structure of the meniscus and the epiphyseal bone can be observed. The epiphyseal bone line is also particularly obvious. Simultaneously, the epiphyseal bone also has a mesh structure, which has the characteristics of both cartilage and tibia. Further research on the tibia can determine that the trabecular bone line is about 130 microns. Finally, the bone volume fraction (BVF) of the joint, the data also reflect the existence of a layer structure, and its scale distribution is consistent with the results of sharpness and contrast analysis. The SRPCI-CT can play an important role in the study micro-structure of joints.

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Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries

Yang

Han

Repich

et al. 2021

Carbon

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Ri-cheng Zhi

Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries

The Passive Effect of MXene on Electrocatalysis: A Case of Ti₃C₂T_x/CoNi−MOF nanosheets for Oxygen Evolution Reaction

Evaluating the value of synchrotron radiation phase-contrast CT imaging in the study of knee joint microstructure

Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries

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Ri-cheng Zhi

Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries

The Passive Effect of MXene on Electrocatalysis: A Case of Ti3C2Tx/CoNi−MOF nanosheets for Oxygen Evolution Reaction

Evaluating the value of synchrotron radiation phase-contrast CT imaging in the study of knee joint microstructure

Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries

Contact Info

Product

Resources

About

The Passive Effect of MXene on Electrocatalysis: A Case of Ti₃C₂T_x/CoNi−MOF nanosheets for Oxygen Evolution Reaction