Your search keyword '"Shenghai Li"' showing total 4 results

1. Bioinspired Under-Liquid Dual Superlyophobic Surface for On-Demand Oil/Water Separation

Author

Zhecun Wang, Min Guan, Xiangpeng Jiang, Jinyue Xiao, Yubing Shao, Shenghai Li, and Yaohan Chen

Subjects

Electrochemistry, General Materials Science, Surfaces and Interfaces, Condensed Matter Physics, Spectroscopy

Abstract

Porous membranes with under-liquid dual superlyophobic properties, which are difficult to achieve because of a thermodynamic contradiction, have attracted considerable interest in the field of switchable oil/water separation. Herein, a bioinspired mesh membrane with alternating hydrophilic and hydrophobic chemical patterns on its surface that endows it with superamphiphilic and under-liquid dual superlyophobic properties is fabricated by a simple liquidus modification process. The as-prepared membrane possesses a combination of under-oil superhydrophobic and under-water superoleophobic characteristics in the absence of external stimuli. Moreover, it can effectively perform the on-demand separation of various oil/water systems, including immiscible oil/water mixtures and oil/water emulsions owing to its under-liquid dual superlyophobic properties.

Published

2023

2. Ultrathin Films of Organic Networks as Nanofiltration Membranes via Solution-Based Molecular Layer Deposition

Author

Shenghai Li, Huidong Qian, Suobo Zhang, and Jifu Zheng

Subjects

Materials science, Analytical chemistry, Substrate (chemistry), Surfaces and Interfaces, Quartz crystal microbalance, Condensed Matter Physics, complex mixtures, Adsorption, Membrane, Polymerization, Attenuated total reflection, Electrochemistry, General Materials Science, Nanofiltration, Layer (electronics), Spectroscopy

Abstract

Ultrathin films of organic networks on various substrates were fabricated through the solution-based molecular layer deposition (MLD) technique. The rigid tetrahedral geometries of polyfunctional amine and acyl chloride involved in the reaction ensure the continuity of the polymerization process. A linear increase in film thickness with respect to cycle number was observed by UV-vis adsorption, ellipsometry, and quartz crystal microbalance. The growth rate per MLD cycle is 1.6 nm, which can be controlled at the single molecular level. For the first time, we develop the MLD method on the top of hydrolyzed PAN substrate, resulting in nanofiltration (NF) membranes. The stepwise growth was monitored via attenuated total reflectance infrared studies. The separation performance of the obtained membrane for various solutes was sensitive to the terminated layers and number of cycles. The rejection of NH(2)-terminated membranes follows the order of CaCl(2)Na(2)SO(4)NaCl, while the order for COOH-capped surface is Na(2)SO(4)CaCl(2)NaCl. The absolute value of zeta potential for the MLD membranes decreases with the addition of deposition layers. The moderate water flux for the resulting membrane is due to the reduced porosity of the support as well as the low roughness and hydrophilicity of the membrane surface. This bottom-up process provides a promising approach for construction of long-term steady NF membranes with nanoscale dimensions.

Published

2012

3. Assembly of Magnetic Nanospheres into One-Dimensional Nanostructured Carbon Hybrid Materials

Author

Yingjie Lin, Zhongbo Zhang, Shenghai Li, and Haifeng Duan

Subjects

Nanostructure, Materials science, Carbonization, Nanoparticle, chemistry.chemical_element, Nanotechnology, Surfaces and Interfaces, engineering.material, Condensed Matter Physics, Micrometre, chemistry, Nanocrystal, Coating, Electrochemistry, engineering, General Materials Science, Hybrid material, Carbon, Spectroscopy

Abstract

The synthesis and characterization of carbon-coated ferromagnetic nanoparticles that organize into 1-D assemblies of micrometer-sized ferromagnetic chains is described. A controlled aromatization and carbonization of glucose under hydrothermal reaction conditions enabled the preparation of carbonaceous surfactants that were used as shells for the coating of ferromagnetic Fe(3)O(4) nanospheres with a uniform size distribution. Under controlled experimental conditions, it was, for the first time, demonstrated that glucose could be employed as the carbon source in the preparation of continuous 1-D carbon nanoparticle chains with magnetic nanosphere inclusions. The functional groups on the carbon surface will facilitate the linkage of functional groups or catalytic species to the surface in future application. The salient feature of the reported method was the assembly of magnetic nanospheres under hydrothermal reaction conditions in the absence of external fields.

Published

2010

4. Fabrication of Superhydrophobic Cellulose-Based Materials through a Solution-Immersion Process.

Author

Shenghai Li, Xianhong Wang, and Suobo Zhang

Subjects

*FOURIER transform infrared spectroscopy, *SURFACE chemistry, *SPECTRUM analysis, *POLYMERIZATION

Abstract

An industrial waterproof reagent [(potassium methyl siliconate) (PMS)] was used for fabricating a superhydrophobic surface on a cellulose-based material (cotton fabric or paper) through a solution-immersion method. This method involves a hydrogen bond assembly and a polycondensation process. The silanol, which was formed by a reaction of PMS aqueous solution with CO 2, was assembled on the cellulose molecule surface via hydrogen bond interactions. The polymethylsilsesquioxane coatings were prepared by a polycondensation reaction of the hydroxyl between cellulose and silanol. The superhydrophobic cellulose materials were characterized by FTIR spectroscopy, thermogravimetry, and surface analysis (XPS, FESEM, AFM, and contact angle measurements). Analytical characterization revealed that nanoscale roughness protuberances uniformly covered the surface, thus transforming the cellulose from superhydrophilic to superhydrophobic with a water contact angle of 157 °. The superhydrophobic coatings were satisfactory with regard to both chemical and mechanical durability, and because of the transparency of the coatings the native cotton fabric displayed no changes with regard to either morphology or color. The easy availability of the materials and simplicity of this method render it convenient for mass production. [ABSTRACT FROM AUTHOR]

Published

2008