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Items: 1 to 20 of 80

1.

Wetting and evaporative aggregation of nanofluid droplets on CVD-synthesized hydrophobic graphene surfaces.

Park JS, Kihm KD, Kim H, Lim G, Cheon S, Lee JS.

Langmuir. 2014 Jul 22;30(28):8268-75. doi: 10.1021/la404854z. Epub 2014 Mar 5.

PMID:
24559308
2.

Nanofluids droplets evaporation kinetics and wetting dynamics on rough heated substrates.

Sefiane K, Bennacer R.

Adv Colloid Interface Sci. 2009 Mar-Jun;147-148:263-71. doi: 10.1016/j.cis.2008.09.011. Epub 2008 Oct 17.

PMID:
19019321
3.

Effect of Surface Wettability on Crack Dynamics and Morphology of Colloidal Films.

Ghosh UU, Chakraborty M, Bhandari AB, Chakraborty S, DasGupta S.

Langmuir. 2015 Jun 9;31(22):6001-10. doi: 10.1021/acs.langmuir.5b00690. Epub 2015 May 27.

PMID:
25973978
4.

Surfactant solutions and porous substrates: spreading and imbibition.

Starov VM.

Adv Colloid Interface Sci. 2004 Nov 29;111(1-2):3-27.

PMID:
15571660
5.

Influence of surface orientation on the organization of nanoparticles in drying nanofluid droplets.

Hampton MA, Nguyen TA, Nguyen AV, Xu ZP, Huang L, Rudolph V.

J Colloid Interface Sci. 2012 Jul 1;377(1):456-62. doi: 10.1016/j.jcis.2012.03.024. Epub 2012 Mar 17.

PMID:
22503627
6.

Sessile nanofluid droplet drying.

Zhong X, Crivoi A, Duan F.

Adv Colloid Interface Sci. 2015 Mar;217:13-30. doi: 10.1016/j.cis.2014.12.003. Epub 2014 Dec 15. Review.

PMID:
25578408
7.

How surface functional groups influence fracturation in nanofluid droplet dry-outs.

Carle F, Brutin D.

Langmuir. 2013 Aug 13;29(32):9962-6. doi: 10.1021/la401428v. Epub 2013 Jul 31.

PMID:
23902151
8.

Evaporation of picoliter droplets on surfaces with a range of wettabilities and thermal conductivities.

Talbot EL, Berson A, Brown PS, Bain CD.

Phys Rev E Stat Nonlin Soft Matter Phys. 2012 Jun;85(6 Pt 1):061604. Epub 2012 Jun 26.

PMID:
23005106
9.

Evaporation of nanodroplets on heated substrates: a molecular dynamics simulation study.

Zhang J, Leroy F, Müller-Plathe F.

Langmuir. 2013 Aug 6;29(31):9770-82. doi: 10.1021/la401655h. Epub 2013 Jul 25.

PMID:
23848165
10.

Transport properties of alumina nanofluids.

Wong KF, Kurma T.

Nanotechnology. 2008 Aug 27;19(34):345702. doi: 10.1088/0957-4484/19/34/345702. Epub 2008 Jul 16.

PMID:
21730657
11.

Control over coffee-ring formation in evaporating liquid drops containing ellipsoids.

Dugyala VR, Basavaraj MG.

Langmuir. 2014 Jul 29;30(29):8680-6. doi: 10.1021/la500803h. Epub 2014 Jul 18.

PMID:
25003833
12.
13.

Contact line motion and dynamic wetting of nanofluid solutions.

Sefiane K, Skilling J, MacGillivray J.

Adv Colloid Interface Sci. 2008 May 19;138(2):101-20. doi: 10.1016/j.cis.2007.12.003. Epub 2007 Dec 31.

PMID:
18275931
14.

Disk to dual ring deposition transformation in evaporating nanofluid droplets from substrate cooling to heating.

Zhong X, Duan F.

Phys Chem Chem Phys. 2016 Jul 27;18(30):20664-71. doi: 10.1039/c6cp03231a.

PMID:
27411495
15.
16.

Kinetics of Evaporation of Pinned Nanofluid Volatile Droplets at Subatmospheric Pressures.

Orejon D, Shanahan ME, Takata Y, Sefiane K.

Langmuir. 2016 Jun 14;32(23):5812-20. doi: 10.1021/acs.langmuir.6b00753. Epub 2016 Jun 1.

PMID:
27218303
17.

Combined effects of underlying substrate and evaporative cooling on the evaporation of sessile liquid droplets.

Wang Y, Ma L, Xu X, Luo J.

Soft Matter. 2015 Jul 28;11(28):5632-40. doi: 10.1039/c5sm00878f.

PMID:
26059590
18.

Hydrophobic attraction as revealed by AFM force measurements and molecular dynamics simulation.

Fa K, Nguyen AV, Miller JD.

J Phys Chem B. 2005 Jul 14;109(27):13112-8.

PMID:
16852631
19.

Long-Range Hydrophilic Attraction between Water and Polyelectrolyte Surfaces in Oil.

Shi C, Yan B, Xie L, Zhang L, Wang J, Takahara A, Zeng H.

Angew Chem Int Ed Engl. 2016 Nov 21;55(48):15017-15021. doi: 10.1002/anie.201608219. Epub 2016 Oct 27.

PMID:
27785855
20.

Nanoparticle self-structuring in a nanofluid film spreading on a solid surface.

Nikolov A, Kondiparty K, Wasan D.

Langmuir. 2010 Jun 1;26(11):7665-70. doi: 10.1021/la100928t.

PMID:
20438106

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