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Fabrication of superhydrophobic surface with different particle size SiO 2 by layer-by-layer assembly method (2018)

H Li, X J Su, G L Hou, S Bi, C H Liu, Y Y Lin and P H Li

Institute of Physics (IOP)

In: IOP Conference Series: Earth and Environmental Science

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Publication Date: 2018-10-12

Description: Surface coarse structure is one of key factors affecting the superhydrophobicity, yet it’s not very clear that what kind of structure is the best for hydrophobicity. Herein in order to study the effect of surface coarse structure, eight kinds of spherical SiO 2 (20 nm, 60 nm, 200 nm, 500 nm, 1 μm, 2 μm, 5 μm and 10 μm) were taken as raw material respectively to explore the effect of particle size on the hydrophobic performance. SiO 2 was deposited on the glass substrate layer by layer using the electrostatic assembly method based on the reaction of amino and epoxy groups. The sample’s structure and properties were characterized respectively by scanning electron microscopy and contact angle measuring instrument. The relationship between SiO 2 particle size and surface hydrophobicity was explored and the superhydrophobic stability were tested. The results show that the surface of SiO 2 film layers are stacked together and arranged tightly, a...

Print ISSN: 1755-1307

Electronic ISSN: 1755-1315

Topics: Geography , Geosciences , Physics

Published by Institute of Physics (IOP)

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Liquid gating elastomeric porous system with dynamically controllable gas/liquid transport (2018)

Sheng, Z., Wang, H., Tang, Y., Wang, M., Huang, L., Min, L., Meng, H., Chen, S., Jiang, L., Hou, X.

American Association for the Advancement of Science (AAAS)

In: Science Advances

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Publication Date: 2018-02-10

Description: The development of membrane technology is central to fields ranging from resource harvesting to medicine, but the existing designs are unable to handle the complex sorting of multiphase substances required for many systems. Especially, the dynamic multiphase transport and separation under a steady-state applied pressure have great benefits for membrane science, but have not been realized at present. Moreover, the incorporation of precisely dynamic control with avoidance of contamination of membranes remains elusive. We show a versatile strategy for creating elastomeric microporous membrane-based systems that can finely control and dynamically modulate the sorting of a wide range of gases and liquids under a steady-state applied pressure, nearly eliminate fouling, and can be easily applied over many size scales, pressures, and environments. Experiments and theoretical calculation demonstrate the stability of our system and the tunability of the critical pressure. Dynamic transport of gas and liquid can be achieved through our gating interfacial design and the controllable pores’ deformation without changing the applied pressure. Therefore, we believe that this system will bring new opportunities for many applications, such as gas-involved chemical reactions, fuel cells, multiphase separation, multiphase flow, multiphase microreactors, colloidal particle synthesis, and sizing nano/microparticles.

Electronic ISSN: 2375-2548

Topics: Natural Sciences in General

Published by American Association for the Advancement of Science (AAAS)

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Preparation and characterization of flexibility and lightweight CF-RGO composites (2018)

J Li, S Bi, X J Su, G L Hou, B Mei and W Q Ma

Institute of Physics (IOP)

In: IOP Conference Series: Materials Science and Engineering

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Publication Date: 2018-02-03

Description: Absorbing materials are developed with the concept of “thin, light, wide and strong”, and various methods and materials have been attempted to satisfy the demand. In this work, the in situ growth method were conducted to grow reduced graphene (RGO) into carbon fiber (CF) to prepare CF-RGO composites. Moreover, the phase, microstructure and electromagnetic performance of the flexibility and lightweight composites were characterized. Consequently, the XRD and SEM results indicate the RGO is well grown on the surface of CF. The microwave absorption performance of the as-prepared samples were calculated, and the results show that the effective absorption band of the composites move towards low frequency once the RGO were introduced into the CF.

Print ISSN: 1757-8981

Electronic ISSN: 1757-899X

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by Institute of Physics (IOP)

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Study the effect of Ni 0.5 Zn 0.5 Fe 2 O 4 doped electromagnetic and microwave absorbing properties on RGO based composites (2018)

B Mei, X J Su, S Bi, G L Hou and J Li

Institute of Physics (IOP)

In: IOP Conference Series: Materials Science and Engineering

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Publication Date: 2018-02-03

Description: Ni 0.5 Zn 0.5 Fe 2 O 4 is one of the traditional microwave absorbing materials, and it has attract the focus of the whole world in the past years. The composites behave well in absorbing areas due to its coexistence of dielectric property and ferrimagnetism. The graphene is one of the new absorbing materials and it has been used in varies areas due to its excellent electrical conductivity, thermal conductivity and mechanical properties. In the work, the Ni 0.5 Zn 0.5 Fe 2 O 4 nanoparticles were surficiently compounded with the reduced graphene (RGO), and the microstructure and microwave absorbing performance of the composites were characterized. Consequently, the results indicated that the as-prepared materials perform well in microwave absorption area.

Print ISSN: 1757-8981

Electronic ISSN: 1757-899X

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by Institute of Physics (IOP)

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Oxidation kinetics of YBaCo4O7+{delta} and substituted oxygen carriers (2018)

Hou, L., Yu, Q., Wang, K., Qin, Q., Wei, M., Yang, F.

Royal Society

In: Royal Society Open Science

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Publication Date: 2018-06-21

Description: In this paper, the relaxation kinetics of the oxidation process of the YBaCo 4 O 7+ , Y 0.95 Ti 0.05 BaCo 4 O 7+ and Y 0.5 Dy 0.5 BaCo 4 O 7+ oxygen carriers is studied with isothermal reaction data. XRD analysis for fresh samples shows that all the samples have YBaCo 4 O 7+ structure. Scanning electron microscopy images of samples show that the samples consist of porous agglomerates of primary particles. Isothermal TG experiments are conducted with temperatures of 290°C, 310°C, 330°C and 350°C, respectively. It is found that the Avrami-Eroféev model describes solid-phase changes in the oxygen absorption process adequately. The results show that the distributed activation energies of the oxidation process obtained by the Avrami-Eroféev model are 42.079 kJ mol –1 , 42.944 kJ mol –1 and 41.711 kJ mol –1 for the YBaCo 4 O 7+ , Y 0.95 Ti 0.05 BaCo 4 O 7+ and Y 0.5 Dy 0.5 BaCo 4 O 7+ oxygen carriers, respectively. The kinetic model was obtained to predict the oxygen carrier conversion of oxygen absorption for different time durations. The kinetic parameters obtained here are quite vital when this material is used in reactors.

Keywords: thermodynamics, energy

Electronic ISSN: 2054-5703

Topics: Natural Sciences in General

Published by Royal Society

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