Hang Le Thi Thu scite author profile

Hang Le Thi Thu

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Preparation of zero valent iron nanomaterial via microfluidic device for Cr(VI) ion treatment

Trung¹,

Cu²,

Thi³

et al. 2020

Vietnam j. catal. adsorp.

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In this study, iron nanomaterial was synthesized by a reaction between FeCl3 and NaBH4 using microfluidic device as a microreactor which is prepared by photolithography and soft molding processes. Morphology and structure of the as-prepared nanomaterial was characterized by scanning microscope and X-ray diffraction analysis methods. The collected product is zero valent iron material with the morphology is nano-sheet with the thickness is approximatly 50 nm. Hexavalent chromium ion from K2Cr2O7 solution could be removed by the as-prepared iron nanomaterial. The removal of ions Cr(VI) is determined and confirmed by the visible ultraviolet (UV-Vis) absorption spectroscopy which is proportional to the amount of nanomaterial used and is influenced by pH conditions.

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Effect of carbonization temperature on the lithium storage performances of porous Sb/C nanocomposite

Thu¹,

Thu²,

Thuy³

2020

Vietnam j. catal. adsorp.

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In the present study, Sb/C nanocomposites have been synthesized using citrate-gel method in combination with a carbonization process at different temperatures in N2 gas. At reasonable carbonization temperatures, the porous Sb/C nanocomposites with novel foam like-interconnected three-dimensional structure, which is built-up by nanosized Sb particles covered by a carbon shell, are obtained. Among the synthesized composites, the Sb/C-600 sample, which is calcinated at 600 oC, exhibit the best lithium storage. At a discharge-charge rate of 0.1 C, the Sb/C-600 electrode can supply an initial reversible specific capacity of 640.7 mA h g-1, 1.7 times higher than the theoretical specific capacity of graphite anode. During 100 cycles, the electrode shows a slight capacity decay with 0.0348% of loss capacity per cycle. Because of this featured architecture, the Sb/C nanocomposites severe as anode material with enhanced lithium storage performances for rechargeable lithium ion batteries.

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Hang Le Thi Thu

Preparation of zero valent iron nanomaterial via microfluidic device for Cr(VI) ion treatment

Effect of carbonization temperature on the lithium storage performances of porous Sb/C nanocomposite

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