Qin Ren scite author profile

Manipulation of interfacial charge separation and transfer is one of the primary breakthroughs to improve the water oxidation activity and stability of BiVO4 photoanode. In the present work, a CoMoO4-coupled BiVO4 (BiVO4/CoMoO4) film was designed and prepared as the photoanode for photoelectrochemical (PEC) water oxidation. Compared with the bare BiVO4 film, obviously improved PEC water oxidation performance was observed on the BiVO4/CoMoO4 film. Specifically, a higher water oxidation photocurrent density of 3.04 mA/cm2 at 1.23 V versus RHE was achieved on the BiVO4/CoMoO4 photoanode, which is of about 220% improvement over bare BiVO4 photoanode (1.34 mA/cm2 at 1.23 V vs RHE). In addition, the BiVO4/CoMoO4 film photoanode was of better stability and faster hole-to-oxygen kinetics for water oxidation, without significant activity attenuation for 6 h of reaction at 0.65 V versus RHE. The enhanced water oxidation performance on the BiVO4/CoMoO4 film photoanode can be ascribed to the synergistic effect of the following factors: (i) thermodynamically, the photogenerated holes of BiVO4 are directionally transferred to CoMoO4 through their physical coupling interface and valance band potential matching; and (ii) kinetically, the transferred holes induce the formation of Co3+-active sites on CoMoO4 that could synergistically oxidize H2O to molecular O2 with stable activity.

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Current Efficiency and Energy Consumption of Electrochemical Oxidation for Ammonia Removal from Coking Wastewater Using Boron-Doped Diamond Electrodes

Wang

Sha

Yang

et al. 2013

AMM

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The electrochemical treatment of ammonia using born-doped diamond (BDD) as advanced treatment of coking wastewater was investigated. The effects of chloride ion concentration and current density on current efficiency and energy consumption were also analyzed. The results show that the current efficiency increases with chloride ion concentration increase and current density decrease. And 30% of current efficiency is obtained when current density is less than 19.7mA cm-2, and it decreases above 19.7mA cm-2. The energy consumption decreases with the chloride ion concentration increase and current density decrease. And energy consumption of 0.50kWh g-1 and ammonia removal rate of 84.7% can be achieved at initial ammonia concentration of 100mg L-1, chloride concentration of 900mg L-1 and current density of 29.6mA cm-2.Therefore, BDD electrodes have high current efficiency and low energy consumption, which attributed to its high oxygen evolution overvoltage (2.6V vs. SCE) and low chloride evolution overvoltage (1.5V vs. SCE).

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Nanosilver Detection and Digestion Method in Complex Matrix, such as in Juice and Milk

Wang

Ying

Ren

2011

AMR

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This paper investigated the nanosilver detection method by ICP-MS and digestion method in complex matrix, such as in apple juice, grape juice and milk. The results showed that the silver calibration curves have excellent related coefficient with the range of 0.999906 to 0.999972, and the method detection limit of ICP-MS for silver was 1.1653ppb. The sample digestion method for apple juice, grape juice and milk were optimized at different temperature and contact time, in which the optimal digestion method for apple juice and grape juice was at temperature of 95 °C and contact time of 25min, but that for milk should be enhanced the temperature to 155 °C.

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Qin Ren

Boosting solar water oxidation activity and stability of BiVO4 photoanode through the Co-catalytic effect of CuCoO2

Photoelectrochemical driving and clean synthesis of energetic salts of 5,5′-azotetrazolate at room temperature

Enhanced Photoelectrochemical Water Oxidation Performance on BiVO₄ by Coupling of CoMoO₄ as a Hole-Transfer and Conversion Cocatalyst

Current Efficiency and Energy Consumption of Electrochemical Oxidation for Ammonia Removal from Coking Wastewater Using Boron-Doped Diamond Electrodes

Nanosilver Detection and Digestion Method in Complex Matrix, such as in Juice and Milk

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Qin Ren

Boosting solar water oxidation activity and stability of BiVO4 photoanode through the Co-catalytic effect of CuCoO2

Photoelectrochemical driving and clean synthesis of energetic salts of 5,5′-azotetrazolate at room temperature

Enhanced Photoelectrochemical Water Oxidation Performance on BiVO4 by Coupling of CoMoO4 as a Hole-Transfer and Conversion Cocatalyst

Current Efficiency and Energy Consumption of Electrochemical Oxidation for Ammonia Removal from Coking Wastewater Using Boron-Doped Diamond Electrodes

Nanosilver Detection and Digestion Method in Complex Matrix, such as in Juice and Milk

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Product

Resources

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Enhanced Photoelectrochemical Water Oxidation Performance on BiVO₄ by Coupling of CoMoO₄ as a Hole-Transfer and Conversion Cocatalyst