你看 , 通过液体弹珠 , 我们就得到了一台微型的离心机 。 如果让这样的磁性液体弹珠在另一种液体表面旋转 , 通过测定液体弹珠能够达到的最大转速 , 我们可以推算出与液体弹珠相接触的液体的粘度 。
这样一颗颗小小的液体弹珠 , 竟可以帮助我们实现这么多的功能!
怎么样 , 液体弹珠是不是既有趣又实用?相信随着研究的深入 , 科学家们还将从液体弹珠中获得更多的灵感 , 让它们更好地为我们的生活服务 。
参考文献:
1、Bernard P. Binks, “Particles as Surfactants – Similarities and Differences”, Current Opinion in Colloid and Interface Science, 2002, 7, 21
2、Edward Bormashenko , “Liquid Marbles, Elastic Nonstick Droplets: From Minireactors to Self-Propulsion”, Langmuir, 2017, 33,663
3、Edward Bormashenko et al. “On the Mechanism of Floating and Sliding of LiquidMarbles”, ChemPhysChem, 2009, 10, 654
4、Glen McHale and Michael I. Newton, “Liquid Marbles: Principles and Applications”, Soft Matter, 2011, 7, 5473
5、Junfei Tian et al. “Liquid Marble for Gas Sensing”, Chemical Communication, 2010, 46, 4734
6、Merve Dandan and H. Yildirim Erbil, “Evaporation Rate of Graphite Liquid Marbles: Comparison with Water Droplets”, Langmuir, 2009, 25, 8362
Pascale Aussillous and David Quéré, Nature, 2001, 411, 925
7、Syuji Fujii et al. “Liquid Marbles Prepared from pH-Responsive Sterically StabilizedLatex Particles”, Langmuir, 2011, 27, 8067
8、Tina Arbatan et al. “Liquid Marbles as Micro-bioreactors for Rapid Blood Typing”, Advanced Healthcare Materials, 2012, 1, 80
9、Xuemei Han et al. “Spinning Liquid Marble and Its Dual Applications as Microcentrifuge and Miniature Localized Viscometer”, ACS Applied Materials & Interfaces, 2016, 8, 36
10、Yan Zhao et al. “Magnetic Liquid Marbles: Manipulation of Liquid Droplets Using Highly Hydrophobic Fe3O4 Nanoparticles”, Advanced Materials, 2010, 22, 707
11、Yan Zhao et al. “Magnetic Liquid Marbles: Toward ‘Lab in a Droplet’”, Advanced Functional Materials, 2015, 25, 437
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