Huang Jianshu scite author profile

In this work, CeO2 nanosheets decorated with Ag2O and AgBr are successfully fabricated via a simple sediment-precipitation method. The as-prepared ternary Ag2O/AgBr–CeO2 composite with double Z-scheme construction was analyzed by various analytical techniques. Ag nanoparticles (NPs) used as the electron medium could reduce the recombination of photoelectrons and holes, thus leading to the improvement of photocatalytic performance of these catalysts. Due to the unique structure and composite advantages, the optimal Ag2O/AgBr–CeO2 photocatalysts exhibit the superior tetracycline (TC) degradation efficiency of 93.23% and favorable stability with near-initial capacity under visible light irradiation. This ternary Z-scheme structure materials will be the well-promising photocatalysts or the purification of antibiotic wastewater.

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Li₄Ti₅O₁₂ Nanoparticles Prepared with Gel‐hydrothermal Process as a High Performance Anode Material for Li‐ion Batteries

Zheng

Yang

Tang

et al. 2010

Chin. J. Chem.

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Li 4 Ti 5 O 12 (LTO) nanoparticles were prepared by gel-hydrothermal process and subsequent calcination treatment. Calcination treatment led to structural water removal, decomposition of organics and primary formation of LTO. The formation temperature of spinel LTO nanoparticles was lower than that of bulk materials counterpart prepared by solid-state reaction or by sol-gel processing. Based on the thermal gravimetric analysis (TG) and differential thermal gravimetric (DTG), samples calcined at different temperatures (350, 500 and 700 ℃) were characterized by X-ray diffraction (XRD), field emitting scanning electron microscopy (FESEM), transmission electron microscopy (TEM), cyclic voltammogram and charge-discharge cycling tests. A phase transition during the calcination process was observed from the XRD patterns. And the sample calcined at 500 ℃ had a distribution of diameters around 20 nm and exhibited large capacity and good high rate capability. The well reversible cyclic voltammetric results of both electrodes indicated enhanced electrochemical kinetics for lithium insertion. It was found that the Li 4 Ti 5 O 12 anode material prepared through gel-hydrothermal process, when being cycled at 8 C, could preserve 76.6% of the capacity at 0.3 C. Meanwhile, the discharge capacity can reach up to 160.3 mAh•g -1 even after 100 cycles at 1 C, close to the theoretical capacity of 175 mAh•g -1 . The gel-hydrothermal method seemed to be a promising method to synthesize LTO nanoparticles with good application in lithium ion batteries and electrochemical cells.

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Oxygen reduction reaction on (Pt–NbPO x )/MWCNTs electrodes prepared by microwave irradiation method

Jianshu

Zhang

Luo

et al. 2007

J Solid State Electrochem

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Pd-Ni/MWCNT Electrocatalysts for Ethylene Glycol Electro-oxidation in Alkaline Medium

Su-Dong¹,

新疆大学应用化学研究所²,

南京航空航天大学材料科学与技术学院³

et al. 2007

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Huang Jianshu

Template-free synthesis of mesoporous spinel lithium titanate microspheres and their application in high-rate lithium ion batteries

Photocatalytic degradation of organic dye and tetracycline by ternary Ag2O/AgBr–CeO2 photocatalyst under visible-light irradiation

Li₄Ti₅O₁₂ Nanoparticles Prepared with Gel‐hydrothermal Process as a High Performance Anode Material for Li‐ion Batteries

Oxygen reduction reaction on (Pt–NbPO x )/MWCNTs electrodes prepared by microwave irradiation method

Pd-Ni/MWCNT Electrocatalysts for Ethylene Glycol Electro-oxidation in Alkaline Medium

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Huang Jianshu

Template-free synthesis of mesoporous spinel lithium titanate microspheres and their application in high-rate lithium ion batteries

Photocatalytic degradation of organic dye and tetracycline by ternary Ag2O/AgBr–CeO2 photocatalyst under visible-light irradiation

Li4Ti5O12 Nanoparticles Prepared with Gel‐hydrothermal Process as a High Performance Anode Material for Li‐ion Batteries

Oxygen reduction reaction on (Pt–NbPO x )/MWCNTs electrodes prepared by microwave irradiation method

Pd-Ni/MWCNT Electrocatalysts for Ethylene Glycol Electro-oxidation in Alkaline Medium

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Li₄Ti₅O₁₂ Nanoparticles Prepared with Gel‐hydrothermal Process as a High Performance Anode Material for Li‐ion Batteries