Shiguang Mo scite author profile

Atomically dispersed noble metal catalysts often exhibit high catalytic performances, but the metal loading density must be kept low (usually below 0.5%) to avoid the formation of metal nanoparticles through sintering. We report a photochemical strategy to fabricate a stable atomically dispersed palladium-titanium oxide catalyst (Pd1/TiO2) on ethylene glycolate (EG)-stabilized ultrathin TiO2 nanosheets containing Pd up to 1.5%. The Pd1/TiO2 catalyst exhibited high catalytic activity in hydrogenation of C=C bonds, exceeding that of surface Pd atoms on commercial Pd catalysts by a factor of 9. No decay in the activity was observed for 20 cycles. More important, the Pd1/TiO2-EG system could activate H2 in a heterolytic pathway, leading to a catalytic enhancement in hydrogenation of aldehydes by a factor of more than 55.

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Core–Shell Pd@Au Nanoplates as Theranostic Agents for In‐Vivo Photoacoustic Imaging, CT Imaging, and Photothermal Therapy

Chen

et al. 2014

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Uniform plasmonic Pd@Au core-shell bimetallic nanoplates are synthesized by seeded growth strategy. Surface modified with SH-PEG makes it good biocompatibility, prolonged blood circulation, and relatively high tumor accumulation. Enhanced tumor contrast effects can be obtained for in vivo photoacoustic/CT imaging after intravenous injection of Pd@Au-PEG. Moreover, efficient photothermal tumor ablation is achieved, guided by the imaging techniques. This work promises further exploration of the superiority of 2D nanostructures for in vivo biomedical applications.

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A Two-Dimensional Porous Carbon-Modified Separator for High-Energy-Density Li-S Batteries

Pei

Lin

et al. 2018

Joule

388

221

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The performance degradation of high-sulfur-loading cathodes caused by the migration of polysulfide intermediates from cathode to anode seriously impedes the practical use of lithium-sulfur batteries. This work presents a lightweight, porous nitrogen-doped carbon nanosheet modified commercial separator with a high polysulfide-entrapping ability, which can significantly improve the capacities, rate capabilities, and cycling stability of the high-sulfur-loading cathodes made of commercial carbon materials. This study provides useful insight into the design of low-cost and high-energy-density Li-S batteries.

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Self-supporting sulfur cathodes enabled by two-dimensional carbon yolk-shell nanosheets for high-energy-density lithium-sulfur batteries

et al. 2017

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How to exert the energy density advantage is a key link in the development of lithium–sulfur batteries. Therefore, the performance degradation of high-sulfur-loading cathodes becomes an urgent problem to be solved at present. In addition, the volumetric capacities of high-sulfur-loading cathodes are still at a low level compared with their areal capacities. Aiming at these issues, two-dimensional carbon yolk-shell nanosheet is developed herein to construct a novel self-supporting sulfur cathode. The cathode with high-sulfur loading of 5 mg cm−2 and sulfur content of 73 wt% not only delivers an excellent rate performance and cycling stability, but also provides a favorable balance between the areal (5.7 mAh cm–2) and volumetric (1330 mAh cm–3) capacities. Remarkably, an areal capacity of 11.4 mAh cm–2 can be further achieved by increasing the sulfur loading from 5 to 10 mg cm–2. This work provides a promising direction for high-energy-density lithium–sulfur batteries.

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Shiguang Mo

Photochemical route for synthesizing atomically dispersed palladium catalysts

Core–Shell Pd@Au Nanoplates as Theranostic Agents for In‐Vivo Photoacoustic Imaging, CT Imaging, and Photothermal Therapy

A Two-Dimensional Porous Carbon-Modified Separator for High-Energy-Density Li-S Batteries

Self-supporting sulfur cathodes enabled by two-dimensional carbon yolk-shell nanosheets for high-energy-density lithium-sulfur batteries

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