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氟利昂的替代品-植物油基环境友好型工业清洗剂 被引量:1
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作者 Eui Jin Kim Young-Chul Lee +3 位作者 Hyun Uk Lee yun suk huh Myungjin Lee 张家骆(译) 《中国洗涤用品工业》 2018年第11期46-59,共14页
众所周知,氟利昂(CFCs)会导致平流层中臭氧的减少,加剧全球变暖。为此,许多研究团队都在致力于研究氟利昂的替代品。本文基于大豆油和菜子油制备两种生物表面活性剂,并将其分别应用于W/O和O/W型清洗剂配方。将上述生物表面活性剂与月桂... 众所周知,氟利昂(CFCs)会导致平流层中臭氧的减少,加剧全球变暖。为此,许多研究团队都在致力于研究氟利昂的替代品。本文基于大豆油和菜子油制备两种生物表面活性剂,并将其分别应用于W/O和O/W型清洗剂配方。将上述生物表面活性剂与月桂醇、蓖麻油和油酸混合,研究了它们在4~60℃冷热循环的相变化,从而确定最佳的单相的形成参数。分析了生物表面活性剂的生物降解性能、清洗效率和在工业清洗过程中对基质材料(金属、聚合物)的腐蚀伤害。结果显示:大豆油甲酯(SME)在W/O和O/W配方中的生物降解度分别为94.66%和95.60%,在最佳清洗条件下对模型污染物的清洗效率分别为99%和97%;而菜籽油乙酯(CEE)在W/O和O/W配方中的生物降解度分别为94.43%和93.87%,对模型污染物的清洗效率分别为58%和15%。SME的W/O和O/W清洗剂配方、CEE的W/O和O/W清洗剂配方对生铁和聚氯乙烯的腐蚀伤害是最大的,最大腐蚀度分别为0.11/7.65、0.44/5.79、0.11/11.80、和0.12/2.84(rmg/cm^3)。SME的W/O清洗剂相较于传统工业清洗剂中所使用的三氯乙烯(TCE),可以在更短时间(<5min)内实现更高的清洗效率(99%),因此,有望在工业清洗中作为CFC的替代品使用。 展开更多
关键词 工业清洗 生物表面活性剂 氟利昂 生物降解能力 清洗效率 腐蚀度
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Thick free-standing electrode based on carbon-carbon nitride microspheres with large mesopores for high-energy-density lithium-sulfur batteries 被引量:2
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作者 Hui-Ju Kang Tae-Gyu Lee +8 位作者 Heejin Kim Jae-Woo Park Hyun Jin Hwang Hyeonseok Hwang Kwang-suk Jang Hae Jin Kim yun suk huh Won Bin Im Young-Si Jun 《Carbon Energy》 CAS 2021年第3期410-423,共14页
The development of sulfur cathodes with high areal capacity and high energy density is crucial for the practical application of lithium-sulfur batteries(LSBs).LSBs can be built by employing(ultra)high-loading sulfur c... The development of sulfur cathodes with high areal capacity and high energy density is crucial for the practical application of lithium-sulfur batteries(LSBs).LSBs can be built by employing(ultra)high-loading sulfur cathodes,which have rarely been realized due to massive passivation and shuttling.Herein,microspheres of a carbon-carbon nitride composite(C@CN)with large mesopores are fabricated via molecular cooperative assembly.Using the C@CN-based electrodes,the effects of the large mesopores and N-functional groups on the electrochemical behavior of sulfur in LSB cells are thoroughly investigated under ultrahigh sulfur-loading conditions(>15 mgS cm^(-2)).Furthermore,for high-energy-density LSBs,the C@CN powders are pelletized into a thick free-standing electrode(thickness:500^m;diameter:11 mm)via a simple briquette process;here,the total amount of energy stored by the LSB cells is 39 mWh,corresponding to a volumetric energy density of 440 Wh L-1 with an areal capacity of 24.9 and 17.5 mAh cm^(-2) at 0.47 and 4.7 mA cm^(-2),respectively(at 24mgS cm^(-2)).These results have significantly surpassed most recent records due to the synergy among the large mesopores,(poly)sulfide-philic surfaces,and thick electrodes.The developed strategy with its potential for scale-up successfully fills the gap between laboratory-scale cells and practical cells without sacrificing the high areal capacity and high energy density,providing a solid foundation for the development of practical LSBs. 展开更多
关键词 briquette process carbon nitride free-standing electrode high energy density lithium-sulfur batteries MESOPORES
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