This is a table of surface tension values[1] for some interfaces at the indicated temperatures. Note that the SI units millinewtons per meter (mN·m−1) are equivalent to the cgs units dynes per centimetre (dyn·cm−1).
Interface | Temperature | γ (mN·m−1) |
---|---|---|
Water–air | 20 °C | 72.86 ± 0.05[2] |
Water–air | 21.5 °C | 72.75 |
Water–air | 25 °C | 71.99±0.05[2] |
Methylene iodide–air | 20 °C | 67.00 |
Methylene iodide–air | 21.5 °C | 63.11 |
Ethylene glycol–air | 25 °C | 47.3 |
Ethylene glycol–air | 40 °C | 46.3 |
Dimethyl sulfoxide–air | 20 °C | 43.54 |
Propylene carbonate–air | 20 °C | 41.1 |
Benzene–air | 20 °C | 28.88 |
Benzene–air | 30 °C | 27.56 |
Toluene–air | 20 °C | 28.52 |
Chloroform–air | 25 °C | 26.67 |
Propionic acid–air | 20 °C | 26.69 |
Butyric acid–air | 20 °C | 26.51 |
Carbon tetrachloride–air | 25 °C | 26.43 |
Butyl acetate–air | 20 °C | 25.09 |
Diethylene glycol–air | 20 °C | 30.09 |
Nonane–air | 20 °C | 22.85 |
Methanol–air | 20 °C | 22.50 |
Ethanol–air | 20 °C | 22.39 |
Ethanol–air | 30 °C | 21.55 |
Octane–air | 20 °C | 21.61 |
Heptane–air | 20 °C | 20.14 |
Ether–air | 25 °C | 20.14 |
Hexane-air | 20 °C | 17.9[3] |
Mercury–air | 20 °C | 486.5 |
Mercury–air | 25 °C | 485.5 |
Mercury–air | 30 °C | 484.5 |
NaCl–air | 1073 °C | 115 |
KClO3–air | 20 °C | 81 |
Water–1-Butanol | 20 °C | 1.8 |
Water–Ethyl acetate | 20 °C | 6.8 |
Water–Heptanoic acid | 20 °C | 7.0 |
Water–Benzaldehyde | 20 °C | 15.5 |
Water–transformer oil | 20 °C | 37.2[4] |
Water–Mercury | 20 °C | 415 |
Ethanol–Mercury | 20 °C | 389 |
Water–1,2-Dichloroethane | 20 °C | 30.5 ± 0.3[5] |
Water–α,α,α-trifluorotoluene | 20 °C | 38.0 ± 0.5[5] |
Water–nitrobenzene | 20 °C | 24.4 ± 0.2[5] |
Water–nitromethane | 20 °C | 16.0 ± 0.2[5] |
Water–propylene carbonate | 20 °C | 2.9 ± 0.1[6] |
References
- ↑ A. W. Adamson, A. P. Gast.; Physical chemistry of surfaces; 6Ed, Wiley, 1997)
- 1 2 Colloids and Surfaces (1990)43,169–194, Pallas,N.R. and Harrison,Y
- ↑ "Surface Tension of Hexane from Dortmund Data Bank". ddbst.com. Retrieved 13 October 2020.
- ↑ Geoffrey Taylor (1964). "Disintegration of Water Droplets in an Electric Field". Proceedings of the Royal Society A. 280 (1382): 383–397. Bibcode:1964RSPSA.280..383T. doi:10.1098/rspa.1964.0151. JSTOR 2415876. S2CID 15067908.
- 1 2 3 4 Smirnov, Evgeny; Peljo, Pekka; Scanlon, Micheál D.; Gumy, Frederic; Girault, Hubert H. (2016). "Self-healing gold mirrors and filters at liquid–liquid interfaces" (PDF). Nanoscale. 8 (14): 7723–7737. Bibcode:2016Nanos...8.7723S. doi:10.1039/c6nr00371k. hdl:10344/8369. ISSN 2040-3364. PMID 27001646.
- ↑ Smirnov, Evgeny; Peljo, Pekka; Girault, Hubert (2017). "Self-assembly and redox induced phase transfer of gold nanoparticles at the water-propylene carbonate interface" (PDF). Chem. Commun. 53 (29): 4108–4111. doi:10.1039/c6cc09638g. ISSN 1364-548X. PMID 28349148.
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