Xinying Ding scite author profile

Developing high-performance electrode materials is in high demand for the development of supercapacitors. Herein, defect and interface engineering has been simultaneously realized in NiMoO4 nanowire arrays (NWAs) using a simple sucrose coating followed by an annealing process. The resultant hierarchical oxygen-deficient NiMoO4@C NWAs (denoted as “NiMoO4−x@C”) are grown directly on conductive ferronickel foam substrates. This composite affords direct electrical contact with the substrates and directional electron transport, as well as short ionic diffusion pathways. Furthermore, the coating of the amorphous carbon shell and the introduction of oxygen vacancies effectively enhance the electrical conductivity of NiMoO4. In addition, the coated carbon layer improves the structural stability of the NiMoO4 in the whole charging and discharging process, significantly enhancing the cycling stability of the electrode. Consequently, the NiMoO4−x@C electrode delivers a high areal capacitance of 2.24 F cm−2 (1720 F g−1) at a current density of 1 mA cm−2 and superior cycling stability of 84.5% retention after 6000 cycles at 20 mA cm−2. Furthermore, an asymmetric super-capacitor device (ASC) has been constructed with NiMoO4−x@C as the positive electrode and activated carbon (AC) as the negative electrode. The as-assembled ASC device shows excellent electrochemical performance with a high energy density of 51.6 W h kg−1 at a power density of 203.95 W kg−1. Moreover, the NiMoO4//AC ASC device manifests remarkable cyclability with 84.5% of capacitance retention over 6000 cycles. The results demonstrate that the NiMoO4−x@C composite is a promising material for electrochemical energy storage. This work can give new insights on the design and development of novel functional electrode materials via defect and interface engineering through simple yet effective chemical routes.

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Determining the dispersion stability of black phosphorus colloids by 3D light scattering

Ding¹,

Zhan²,

Chen³

et al. 2019

Opt. Mater. Express

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Quantity transmission and traceability methods of heavy dc standard measurement device

Ren

Liu

et al. 2015

IET Science, Measurement & Technology

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Operation principle, quantity transmission and traceability methods of heavy dc standard measurement device are described. The uncertainty evaluation of the calibration methods and the current ratio accuracy is emphasised. The aim of the study is to establish a quantity transmission and traceability system of heavy direct current. The system consists of the laboratory reference standard device whose accuracy is 0.0005%, the field transfer standard device whose accuracy is 0.02%, the field working standard device whose accuracy is 0.05% and testing, evaluation and traceability method of the value of quantity. The method covers the whole process of self-calibration, inter-calibration and the comparison with some other standard measurement device. The research provides a scientific approach to accurate measurement of dc energy consumption, and has broad prospects in energy-saving and emission-reduction.

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Roles of Oxygen Vacancies in NiMoO4: A First-Principles Study

et al. 2021

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Oxygen vacancy has been suggested to play a role in the electrochemical ability of NiMoO4. The band structure and density of state of NiMoO4 bulks with different concentrations of oxygen vacancy were investigated by the first-principles calculation. Original NiMoO4 shows semiconductive properties with a direct band gap of 0.136 eV. When one to three oxygen vacancies were introduced in the NiMoO4 supercell, the band structure of NiMoO4 transforms to metallic properties, and oxygen vacancies formation energy increases with the increased number of oxygen vacancies. The oxygen vacancies in NiMoO4 lead to the increased electron localization of Ni 3d and Mo 3d state nearby the Fermi level, resulting in higher concentration of carriers in NiMoO4 and thus increase in its electrical conductivity. The results demonstrate that introducing oxygen vacancies can improve the conductive property of NiMoO4.

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Enantioselective Mukaiyama–Michael Reaction of β,γ-Unsaturated α-Keto Esters with Silyl Ketene Acetals Catalyzed by a Chiral Magnesium Phosphate

Shen

Ding

et al. 2023

Org. Lett.

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We would like to describe an efficient and highly enantioselective Mukaiyama–Michael reaction of silyl ketene acetals with β,γ-unsaturated α-keto esters catalyzed by a chiral magnesium BINOL-derived phosphate. The resulting functionalized 1,5-dicarbonyl adducts are obtained in high yields (up to 96%) and with excellent enantioselectivities (up to 98%) under mild conditions. Two plausible mechanistic pathways were proposed, including a 1,4-addition and a hetero Diels–Alder [4 + 2] cycloaddition.

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Xinying Ding

Synchronous Defect and Interface Engineering of NiMoO4 Nanowire Arrays for High-Performance Supercapacitors

Determining the dispersion stability of black phosphorus colloids by 3D light scattering

Quantity transmission and traceability methods of heavy dc standard measurement device

Roles of Oxygen Vacancies in NiMoO4: A First-Principles Study

Enantioselective Mukaiyama–Michael Reaction of β,γ-Unsaturated α-Keto Esters with Silyl Ketene Acetals Catalyzed by a Chiral Magnesium Phosphate

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