Your search keyword '"Qin-Qin YANG"' showing total 2 results

1. BIOMIMETIC MICROSPHERES WITH ROUGH STRUCTURE BY THE GEOMETRIC POTENTIAL THEORY.

Author

Zhen-Zhen XU, Qin-Qin YANG, Li-Bin WANG, Ming-Qiang GUAN, Zhi LIU, and Jiang-Hui ZHAO

Subjects

*WATER purification, *MICROSPHERES, *BIOMIMETIC materials, *SURFACES (Technology), *METAL ions, *HEAVY metals, *WETTING

Abstract

Rough structure microspheres developed using electrospinning show many superior properties, such as increased specific surface area and enhanced wettability, yielding numerous benefits to the applications in adsorption, separation, and others. In this study, biomimetic rough microspheres on string of polymethyl methacrylate nanofiber with hierarchical structure of micron-scale microsphere, and nanoscale Y-shape edges on the microsphere were innovatively and successfully developed by electrospinning. The resulting microsphere exhibited a steering-wheel-like Y shape, and the formation process was physically explained by the geometric potential theory. In the spinning process, irregular hexahedron-like droplet was firstly formed. Then, the hexahedron-like droplet changed to tetrahedron-like after the bottom contacted the collector. The tetrahedron-like droplet evolved into Y-shaped microsphere due to the geometric potential and the collapse of the center part owing to the solvent evaporation. Furthermore, similar to the natural lotus leaf, the hierarchical steering-wheel structure strengthened the nanofiber membrane roughness and endowed the membrane with superhydrophobicity, indicating the potential application in water treatment (oil-water separation, and dye and heavy metal ion adsorption), functional surface materials (self-cleaning fabrics), energy generation and other salient areas. [ABSTRACT FROM AUTHOR]

Published

2024

2. POLYVINYL ALCOHOL NANOFIBROUS MEMBRANE BY HIGH-CURVATURE SOLID-NEEDLE ELECTROSPINNING Numerical Simulation and Experimental Verification.

Author

Zhen-Zhen XU, Qin-Qin YANG, Bing GAO, Kai-Zhun LI, Ming-Qiang GUAN, Jiang-Hui ZHAO, and Zh LIU

Subjects

*COMPUTER simulation, *ELECTROSPINNING, *WATER purification, *POLYVINYL alcohol, *NANOFIBERS, *CURVATURE, *POLYACRYLONITRILES

Abstract

Herein, polyvinyl alcohol nanofibrous membrane was fabricated firstly by the high-curvature solid-needle electrospinning. The influence of electrode curvature (needle angle), spinning voltage, solution concentration and collector distance on nanofiber morphology was systematically investigated numerically and experimentally. Numerical simulation shows that the electrical field increases with the increase of spinning voltage, while decreases with the increase of needle angle and collector distance. The experimental results are consistent with the numerical results. Furthermore, the solution concentration can be used to adjust the diameter of polyvinyl alcohol nanofibers. The possible applications of the nanofiber membrane to energy generation, water treatment, and separation are also discussed. [ABSTRACT FROM AUTHOR]

Published

2023