Dan Chuai scite author profile

In this study, a novel hydrophobic, microporous membrane was fabricated from styrene-butadiene-styrene (SBS) polymer using electrospinning and evaluated for membrane distillation applications. Compared to a commercially available polytetrafluoroethylene (PTFE) membrane, the SBS membrane had larger membrane pore size and fiber diameter and comparable membrane porosity. The fabricated SBS showed slightly lower water flux than the PTFE membrane because it was two times thicker. However, the SBS membrane had better salt rejection and most importantly could be fabricated via a simple process. The SBS membrane was also more hydrophobic than the reference PTFE membrane. In particular, as temperature of the reference water liquid increased to 60 °C, the SBS membrane remained hydrophobic with a contact angle of 100° whereas the PTFE became hydrophilic with a contact angle of less than 90°. The hydrophobic membrane surface prevented the intrusion of liquid into the membrane pores, thus improving the salt rejection of the SBS membrane. In addition, the SBS membrane had superior mechanical strength over the PTFE membrane. Using the SBS membrane, stable water flux was achieved throughout an extended MD operation period of 120 hours to produce excellent quality distillate (over 99.7% salt rejection) from seawater.

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Flaky FeSiAl alloy-carbon nanotube composite with tunable electromagnetic properties for microwave absorption

Huang

Liu

Chuai

et al. 2016

Sci Rep

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Flaky FeSiAl alloy/multi-wall carbon nanotube (FeSiAl/MWCNT) composite was fabricated by facile and scalable ball milling method. The morphology and electromagnetic properties of the FeSiAl alloy can be well tuned by controlling the milling time. It is found that the magnetic loss of the FeSiAl alloy is improved by optimizing the milling time due to the increased anisotropy field. Meanwhile the addition of MWCNTs enhances the dielectric loss of the composite by increasing the interfacial polarizations, dipolar polarizations and conductive paths. Relative to conventional FeSiAl absorbers, the FeSiAl/MWCNT composite exhibits greatly improved microwave absorption performance with advantages of strong absorption and small thickness. The minimum reflection loss of the composite reaches −42.8 dB at 12.3 GHz at a very thin thickness of 1.9 mm.

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Enhanced microwave absorption properties of flake-shaped FePCB metallic glass/graphene composites

Chuai

Liu

et al. 2016

Composites Part A: Applied Science and Manufacturing

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Electrospun Synthesis of Reduced Graphene Oxide (RGO)/NiZn Ferrite Nanocomposites for Excellent Microwave Absorption Properties

Xiao-wen

Chuai

Zhu

2019

J Supercond Nov Magn

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Anisotropic CeCo₅ based permanent magnetic nanoflakes with high coercivity

et al. 2018

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Dan Chuai

A novel electrospun, hydrophobic, and elastomeric styrene-butadiene-styrene membrane for membrane distillation applications

Flaky FeSiAl alloy-carbon nanotube composite with tunable electromagnetic properties for microwave absorption

Enhanced microwave absorption properties of flake-shaped FePCB metallic glass/graphene composites

Electrospun Synthesis of Reduced Graphene Oxide (RGO)/NiZn Ferrite Nanocomposites for Excellent Microwave Absorption Properties

Anisotropic CeCo₅ based permanent magnetic nanoflakes with high coercivity

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Dan Chuai

A novel electrospun, hydrophobic, and elastomeric styrene-butadiene-styrene membrane for membrane distillation applications

Flaky FeSiAl alloy-carbon nanotube composite with tunable electromagnetic properties for microwave absorption

Enhanced microwave absorption properties of flake-shaped FePCB metallic glass/graphene composites

Electrospun Synthesis of Reduced Graphene Oxide (RGO)/NiZn Ferrite Nanocomposites for Excellent Microwave Absorption Properties

Anisotropic CeCo5 based permanent magnetic nanoflakes with high coercivity

Contact Info

Product

Resources

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Anisotropic CeCo₅ based permanent magnetic nanoflakes with high coercivity