Changrui Xing scite author profile

The emergence of zerovalent atom catalysts has been highly attractive for catalytic science. For many years, scientists have explored the stability of zerovalent atom catalysts and demonstrated their unique properties. Here, we describe an atom catalyst (AC) with atomically dispersed zerovalent molybdenum atoms on graphdiyne (Mo 0 /GDY) with a high mass content of Mo atoms (up to 7.5 wt %) that was synthesized via a facile and scalable process. The catalyst shows both excellent selectivity and activity in the electrochemical reduction of nitrogen and in the hydrogen evolution reaction in aqueous solutions at room temperature and pressure. It is noted that this catalyst is the first bifunctional AC for highly efficient and selective ammonia and hydrogen generation. The catalytic process of our catalyst is well understood, the structure is defined, and the performance is excellent, providing a solid foundation for the generation and application of the new generation of catalysts.

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Cryo-EM Structure of the Human Cannabinoid Receptor CB2-Gi Signaling Complex

Xing

Zhuang

et al. 2020

Cell

181

211

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Graphdiyne Interface Engineering: Highly Active and Selective Ammonia Synthesis

et al. 2020

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A freestanding 3D graphdiyne–cobalt nitride (GDY/Co2N) with a highly active and selective interface is fabricated for the electrochemical nitrogen reduction reaction (ECNRR). Density function theory calculations reveal that the interface‐bonded GDY contributes an unique p‐electronic character to optimally modify the Co‐N compound surface bonding, which generates as‐observed superior electronic activity for NRR catalysis at the interface region. Experimentally, at atmospheric pressure and room temperature, the electrocatalyst creates a new record of ammonia yield rate (YNH3 ) and Faradaic efficiency (FE) of 219.72 μg h−1 mgcat.−1 and 58.60 %, respectively, in acidic conditions, higher than reported electrocatalysts. Such a catalyst is promising to generate new concepts, new knowledge, and new phenomena in electrocatalytic research, driving rapid development in the field of electrocatalysis.

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Rhodium nanocrystals on porous graphdiyne for electrocatalytic hydrogen evolution from saline water

et al. 2022

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The realization of the efficient hydrogen conversion with large current densities at low overpotentials represents the development trend of this field. Here we report the atomic active sites tailoring through a facile synthetic method to yield well-defined Rhodium nanocrystals in aqueous solution using formic acid as the reducing agent and graphdiyne as the stabilizing support. High-resolution high-angle annular dark-field scanning-transmission electron microscopy images show the high-density atomic steps on the faces of hexahedral Rh nanocrystals. Experimental results reveal the formation of stable sp–C~Rh bonds can stabilize Rh nanocrystals and further improve charge transfer ability in the system. Experimental and density functional theory calculation results solidly demonstrate the exposed high active stepped surfaces and various metal atomic sites affect the electronic structure of the catalyst to reduce the overpotential resulting in the large-current hydrogen production from saline water. This exciting result demonstrates unmatched electrocatalytic performance and highly stable saline water electrolysis.

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Rapid and Highly Sensitive Detection of Lead Ions in Drinking Water Based on a Strip Immunosensor

Kuang

Xing

Hao

et al. 2013

Sensors

130

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In this study, we have first developed a rapid and sensitive strip immunosensor based on two heterogeneously-sized gold nanoparticles (Au NPs) probes for the detection of trace lead ions in drinking water. The sensitivity was 4-fold higher than that of the conventional LFA under the optimized conditions. The visual limit of detection (LOD) of the amplified method for qualitative detection lead ions was 2 ng/mL and the LOD for semi-quantitative detection could go down to 0.19 ng/mL using a scanning reader. The method suffered from no interference from other metal ions and could be used to detect trace lead ions in drinking water without sample enrichment. The recovery of the test samples ranged from 96% to 103%. As the detection method could be accomplished within 15 min, this method could be used as a potential tool for preliminary monitoring of lead contamination in drinking water.

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2D graphdiyne loading ruthenium atoms for high efficiency water splitting

Hui

Xue

et al. 2020

Nano Energy

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Fluorographdiyne: A Metal‐Free Catalyst for Applications in Water Reduction and Oxidation

et al. 2019

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Ah ighly efficient bifunctional metal-free catalyst was prepared by growth of three-dimensional porous fluorographdiyne networks on carbon cloth (p-FGDY/CC). Our experiments and density functional theory (DFT) calculations show the 3D p-FGDY/CC network is highly active and it is ahigh potential metal-free catalyst for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), as well as overall water splitting (OWS) under both acidic and alkaline conditions.The experimental and theoretical results showvery good consistency;for example,inthe HER process,p-FGDY/ CC exhibits small overpotentials of 82 and 92 mV to achieve 10 mA cm À2 under alkaline and acidic conditions,respectively. This ensures an even higher selectivity for the adsorption/ Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.

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SLC25A39 is necessary for mitochondrial glutathione import in mammalian cells

Wang

Yen

Zhu

et al. 2021

Nature

109

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Changrui Xing

Highly Efficient and Selective Generation of Ammonia and Hydrogen on a Graphdiyne-Based Catalyst

Cryo-EM Structure of the Human Cannabinoid Receptor CB2-Gi Signaling Complex

Graphdiyne Interface Engineering: Highly Active and Selective Ammonia Synthesis

Rhodium nanocrystals on porous graphdiyne for electrocatalytic hydrogen evolution from saline water

Rapid and Highly Sensitive Detection of Lead Ions in Drinking Water Based on a Strip Immunosensor

2D graphdiyne loading ruthenium atoms for high efficiency water splitting

Fluorographdiyne: A Metal‐Free Catalyst for Applications in Water Reduction and Oxidation

SLC25A39 is necessary for mitochondrial glutathione import in mammalian cells

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