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丙烯酰胺 1

反相微乳液聚合 1

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Synthesis of nanoiron by microemulsion with Span/Tween as mixed surfactants for reduction of nitrate

ZHANG Yunxia, LI Tielong, JIN Zhaohui, WANG Wei, WANG Shuaima

《环境科学与工程前沿（英文）》 2007年第1卷第4期页码 466-470 doi: 10.1007/s11783-007-0074-5

摘要： Denitrification of nitrate in groundwater using iron nanoparticles has received increasing interest in recent years. In order to fabricate iron nanoparticles with homogeneously spherical shape and narrow size distribution, a simp

关键词： spherical distribution groundwater interest Denitrification

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Microemulsion-mediated hydrothermal synthesis of flower-like MoS

Yuxia Jiang, Donge Wang, Zhendong Pan, Huaijun Ma, Min Li, Jiahe Li, Anda Zheng, Guang Lv, Zhijian Tian

《化学科学与工程前沿（英文）》 2018年第12卷第1期页码 32-42 doi: 10.1007/s11705-017-1677-4

摘要： Flower-like intercalated MoS nanomaterials have been successfully synthesized via a microemulsion-mediated hydrothermal (MMH) method, and characterized by X-ray diffraction, Raman spectroscopy, element analysis, scanning electron microscopy, transmission electron microscopy, thermogravimetric analysis, and Fourier transform infrared spectroscopy in detail. Their catalytic performance for anthracene hydrogenation was evaluated using a slurry-bed batch reactor with an initial hydrogen pressure of 80 bar at 350 °C for 4 h. The intercalated MoS nanoflowers synthesized from Na MoO (MoS -S) and H MoO (MoS -A) as molybdenum precursors have diameters of about 150 and 50 nm, respectively. MoS nanosheets on MoS -S and MoS -A possess stacking layer numbers of 5–10 and 2–5, and slab lengths of about 15 and 10 nm, respectively. The interlayer distances of MoS -S and MoS -A are both enlarged from 0.62 nm to about 0.95 nm due to the intercalation of NH and surfactant molecules. The MoS nanoflowers have high catalytic activities for anthracene hydrogenation. The selectivity for octahydroanthracene, a deeply hydrogenated product, over MoS -A is 89.8%, which is 31.0 times higher than that over commercial bulk MoS . Fully hydrogenated product (perhydroanthracene) was also detected over MoS nanoflowers with a selectivity of 3.7%. The enhanced hydrogenation activities of MoS nanoflowers can be ascribed to the high exposure of catalytic active sites, resulting from the smaller particle size, fewer stacking layer, shorter slab length and enlarged interlayer distance of MoS nanoflowers compared with commercial bulk MoS . In addition, a possible growth mechanism of MoS nanoflowers synthesized via the MMH method was proposed.

关键词： microemulsion intercalated MoS₂ catalytic hydrogenation active sites

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反相微乳液聚合机理及模型化处理

李晓,张卫英,袁惠根

《中国工程科学》 2003年第5卷第1期页码 69-73

摘要：

在阐述反相微乳液聚合液滴成核及粒子增长机理的基础上，提出了丙烯酰胺反相微乳液聚合过程的物理模式，并对反相微乳液聚合模型化处理时的关键问题作了扼要讨论。

关键词：反相微乳液聚合机理模型丙烯酰胺

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Ternary phase behavior of water microemulsified diesel-palm biodiesel

Nurul Atiqah Izzati MD ISHAK,Ismail Ab RAMAN,Mohd Ambar YARMO,Wan Mohd Faizal WAN MAHMOOD

《能源前沿（英文）》 2015年第9卷第2期页码 162-169 doi: 10.1007/s11708-015-0355-9

摘要： This paper aims to develop a new microemulsions system comprising diesel and palm oil methyl ester (PME) that have the potential to be used as alternative fuels for diesel engines. The water-in-diesel-biodiesel microemulsions were prepared by applying PME mixed with diesel, non-ionic surfactants, co-surfactants and water to make the water-in-oil (W/O) microemulsion system. This microemulsified fuel was achieved through low-energy microemulsification by using the constant composition method. The diesel used was mixed with four different concentrations of PME, i.e., 10% (w/w) (B10), 20% (w/w) (B20), 30% (w/w) (B30) and neat diesel (B0). The amount of water was fixed at 20% (w/w). The phase behavior of the water/mixed non-ionic surfactant/diesel-PME system were studied by constructing pseudoternary phase diagrams with the goal of formulating optimized systems. The results showed that the microemulsions were formed and stabilized with a mixture of non-ionic surfactants at a weight ratio of 80:20 at 20% (w/w), and with mixed co-surfactants at a weight ratio of 25:75, 20:80 and 10:90 for B0, B10, B20 and B30 respectively. The particle size, kinematic viscosity at 40°C, refractive index, density, heating value, cloud point, pour point and flash point of the selected water-in-diesel microemulsion were 19.40 nm (polydispersity of 0.12), 2.86 mm /s, 1.435, 0.8913 g/mL, 31.87 MJ/kg, 7.15°C, 10.5°C and 46.5°C respectively. The corresponding values of the water-in-diesel-PME selected were 20.72 nm to 23.74 nm, 13.02 mm /s to 13.29 mm /s, 1.442, 0.8939 g/mL to 0.8990 g/mL, 31.45 MJ/kg to 27.34 MJ/kg, 7.2°C to 6.8°C, 8.5°C to 1.5°C and 47.5°C to 52.0°C. These preliminary findings were further studied as potential fuels for diesel engines.

关键词： palm methyl ester palm oil biodiesel microemulsion water microemulsified fuels