Aerobic Oil-Phase Cyclic Magnetic Adsorption to Synthesize 1D Fe2O3@TiO2 Nanotube Composites for Enhanced Visible-Light Photocatalytic Degradation

In this work, Fe2O3@TiO2 nanostructures with staggered band alignment were newly designed by an aerobic oil-phase cyclic magnetic adsorption method. XRD and TEM analyses were performed to verify the uniform deposition of Fe2O3 nanoparticles on the nanotube inner walls of TiO2. The steady-state degradation experiments exhibited that 1FeTi possessed the most superior performance, which might be ascribable to the satisfying dark adsorption capacity, efficient photocatalytic activity, ease of magnetic separation, and economic efficiency. These results indicated that the deposition of Fe2O3 into TiO2 nanotubes significantly enhanced the activity of Fe2O3, which was mainly ascribed to the Fe2O3-induced formation of staggered iron oxides@TiO2 band alignment and thus efficient separation of h+ and e−. Furthermore, the PL intensity and lifetime of the decay curve were considered as key criterions for the activity’s evaluation. Finally, the leaching tests and regeneration experiments were also performed, which illustrated the inhibited photodissolution compared with TiO2/Fe3O4 and stable cycling ability, enabling 1FeTi to be a promising magnetic material for photocatalytic water remediation.

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Filter-Less Purification of a Water-Soluble Coolant by Using PGA Based Flocculants and Microbubbles

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.565.412 ◽

2012 ◽

Vol 565 ◽

pp. 412-418 ◽

Cited By ~ 1

Author(s):

Shinichi Ninomiya ◽

Keita Komuro ◽

Manabu Iwai ◽

Kiyoshi Suzuki

Keyword(s):

Hard Water ◽

Soft Water ◽

Water Soluble ◽

Working Fluid ◽

Adsorption Method ◽

Collection Rate ◽

Adsorption Removal ◽

Purification System ◽

Magnetic Adsorption ◽

Suspended Matters

In grinding processes, water-soluble working fluid is in heavy usage to maintain and improve a grinding performance. In this paper, effects of the water quality (soft or hard) were studied in a new filter-less purification system using commercially available Polyglutamic acid based flocculants and the microbubble coolant at the same time. As a result of the experiments, it was found that the collection rate of the suspended matters by the magnetic adsorption removal for the hard water became lower compared to the soft water, due to the Ca component contained in rich. It has also been made clear that by removing the suspended matters in the fluid flocked by the flocculant using the magnetic adsorption method and overflowing the residue with the microbubbles after that, the collection rate of the suspended matters in the soft water fluid would become higher than 99%. In the case of the hard water as well, improvement of the collection rate by the microbubbles was confirmed.

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A novel strategy to construct the superior performance of 3D multi-shell CeO2/ZnO@ZnS as a reusable sunlight-driven ternary photocatalyst for highly efficient water remediation

Journal of Environmental Chemical Engineering ◽

10.1016/j.jece.2021.105608 ◽

2021 ◽

pp. 105608

Author(s):

Xiaoqing Jiang ◽

Linsen Huang ◽

Junhua Li ◽

Liangxing Zhang ◽

Xinyu Guo ◽

...

Keyword(s):

Water Remediation ◽

Superior Performance ◽

Highly Efficient ◽

Novel Strategy

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Novel 3D flower-like CoNi2S4/carbon nanotube composites as high-performance electrode materials for supercapacitors

New Journal of Chemistry ◽

10.1039/c5nj02279g ◽

2016 ◽

Vol 40 (1) ◽

pp. 340-347 ◽

Cited By ~ 18

Author(s):

Zhihong Ai ◽

Zhonghua Hu ◽

Yafei Liu ◽

Mengxuan Fan ◽

Peipei Liu

Keyword(s):

Carbon Nanotube ◽

High Performance ◽

Electrode Materials ◽

Rate Capability ◽

Mesoporous Structure ◽

Transformation Method ◽

Superior Performance ◽

Nanotube Composites ◽

Carbon Nanotube Composites ◽

Good Rate Capability

Novel flower-like CoNi2S4/CNT composites are prepared by the precursor transformation method. Ultrahigh specific capacitance and good rate capability are achieved. The desirable mesoporous structure and high conductivity give the superior performance.

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Oil-phase cyclic magnetic adsorption to synthesize Fe3O4@C@TiO2-nanotube composites for simultaneous removal of Pb(II) and Rhodamine B

Chemical Engineering Journal ◽

10.1016/j.cej.2019.02.017 ◽

2019 ◽

Vol 366 ◽

pp. 50-61 ◽

Cited By ~ 27

Author(s):

Jingtao Bi ◽

Xin Huang ◽

Jingkang Wang ◽

Ting Wang ◽

Hao Wu ◽

...

Keyword(s):

Rhodamine B ◽

Tio2 Nanotube ◽

Simultaneous Removal ◽

Nanotube Composites ◽

Magnetic Adsorption

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In situ TEM Studies of agglomeration of sub-nanometer Ru layers in Ru/C multilayers

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100121685 ◽

1992 ◽

Vol 50 (1) ◽

pp. 256-257

Author(s):

Tai D. Nguyen ◽

Ronald Gronsky ◽

Jeffrey B. Kortright

Keyword(s):

Layered Structure ◽

Driving Force ◽

High Energy ◽

Superior Performance ◽

In Situ Tem ◽

Rayleigh Instability ◽

Practical Applications ◽

Transmission Electron ◽

Diffraction Patterns

Nanometer period Ru/C multilayers are one of the prime candidates for normal incident reflecting mirrors at wavelengths < 10 nm. Superior performance, which requires uniform layers and smooth interfaces, and high stability of the layered structure under thermal loadings are some of the demands in practical applications. Previous studies however show that the Ru layers in the 2 nm period Ru/C multilayer agglomerate upon moderate annealing, and the layered structure is no longer retained. This agglomeration and crystallization of the Ru layers upon annealing to form almost spherical crystallites is a result of the reduction of surface or interfacial energy from die amorphous high energy non-equilibrium state of the as-prepared sample dirough diffusive arrangements of the atoms. Proposed models for mechanism of thin film agglomeration include one analogous to Rayleigh instability, and grain boundary grooving in polycrystalline films. These models however are not necessarily appropriate to explain for the agglomeration in the sub-nanometer amorphous Ru layers in Ru/C multilayers. The Ru-C phase diagram shows a wide miscible gap, which indicates the preference of phase separation between these two materials and provides an additional driving force for agglomeration. In this paper, we study the evolution of the microstructures and layered structure via in-situ Transmission Electron Microscopy (TEM), and attempt to determine the order of occurence of agglomeration and crystallization in the Ru layers by observing the diffraction patterns.

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