Direct observation of stick-slip movements of water nanodroplets induced by an electron beam

Proceedings of the National Academy of Sciences of the United States of America

Volumn 109, Issue 19, 2012, Pages 7187-7190

  Mirsaidov, Utkur M ^a,b   Zheng, Haimei ^c   Bhattacharya, Dipanjan ^b,d   Casana, Yosune ^b   Matsudaira, Paul ^a,b,d  

^a NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^b NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^c LAWRENCE BERKELEY NATIONAL LABORATORY   (United States)

^d SINGAPORE MIT ALLIANCE FOR RESEARCH AND TECHNOLOGY   (Singapore)

Author keywords

Interfacial water; Nanoscale fluids

Indexed keywords

WATER;

ARTICLE; CONTROLLED STUDY; ELECTRON BEAM; HYDROPHILICITY; NANOANALYSIS; PRIORITY JOURNAL; TRANSMISSION ELECTRON MICROSCOPY; WATER ANALYSIS;

ALGORITHMS; ELECTRONS; HYDROPHOBIC AND HYDROPHILIC INTERACTIONS; MICROSCOPY, ELECTRON, TRANSMISSION; MODELS, CHEMICAL; NANOSTRUCTURES; PARTICLE SIZE; STATIC ELECTRICITY; SURFACE PROPERTIES; TEMPERATURE; THERMODYNAMICS; WATER;

EID: 84860799719     PISSN: 00278424     EISSN: 10916490     Source Type: Journal    
DOI: 10.1073/pnas.1200457109     Document Type: Article

References (39)

1. Killian JA, von Heijne G (2000) How proteins adapt to a membrane-water interface. Trends Biochem Sci 25:429-434. (Pubitemid 30662410)
2. Ho C, et al. (2005) Electrolytic transport through a synthetic nanometer-diameter pore. Proc Natl Acad Sci USA 102:10445-10450. (Pubitemid 41061573)
3. Gin DL, Noble RD (2011) Designing the Next Generation of Chemical Separation Membranes. Science 332:674-676.
4. Verdaguer A, Sacha GM, Bluhm H, Salmeron M (2006) Molecular structure of water at interfaces: Wetting at the nanometer scale. Chem Rev 106:1478-1510. (Pubitemid 43676515)
5. Pal SK, Zhao L, Zewail AH (2003) Water at DNA surfaces: Ultrafast dynamics in minor groove recognition. Proc Natl Acad Sci USA 100:8113-8118. (Pubitemid 36842507)
6. Otting G, Liepinsh E, Wuthrich K (1991) Protein hydration in aqueous solution. Science 254:974-980. (Pubitemid 21917420)
7. Zhong D, Pal SK, Zewail AH (2011) Biological water: A critique. Chem Phys Lett 503:1-11.
8. Zhang H, Gilbert B, Huang F, Banfield JF (2003) Water-driven structure transformation in nanoparticles at room temperature. Nature 424:1025-1029. (Pubitemid 37064297)
9. Kuo I-FW, Mundy CJ (2004) An ab initio molecular dynamics study of the aqueous liquid-vapor interface. Science 303:658-660. (Pubitemid 38141628)
10. Argyris D, Ashby PD, Striolo A (2011) Structure and orientation of interfacial water determine atomic force microscopy results: Insights from molecular dynamics simulations. ACS Nano 5:2215-2223.
11. Zambrano HA, Walther JH, Koumoutsakos P, Sbalzarini IF (2008) Thermophoretic motion of water nanodroplets confined inside carbon nanotubes. Nano Lett 9:66-71.
12. Halverson JD, Maldarelli C, Couzis A, Koplik J (2008) A molecular dynamics study of the motion of a nanodroplet of pure liquid on a wetting gradient. J Chem Phys 129:164708-164712.
13. Moosavi A, Rauscher M, Dietrich S (2006) Motion of nanodroplets near edges and wedges. Phys Rev Lett 97:236101.
14. Moseler M, Landman U (2000) Formation, stability, and breakup of nanojets. Science 289:1165-1169. (Pubitemid 30650724)
15. Ho TA, Papavassiliou DV, Lee LL, Striolo A (2011) Liquid water can slip on a hydrophilic surface. Proc Natl Acad Sci USA 108:16170-16175.
16. Cottin-Bizonne C, Cross B, Steinberger A, Charlaix E (2005) Boundary slip on smooth hydrophobic surfaces: Intrinsic effects and possible artifacts. Phys Rev Lett 94:056102.
17. Sendner C, Horinek D, Bocquet L, Netz RR (2009) Interfacial water at hydrophobic and hydrophilic surfaces: Slip, viscosity, and diffusion. Langmuir 25:10768-10781.
18. Dagastine RR, et al. (2006) Dynamic forces between two deformable oil droplets in water. Science 313:210-213. (Pubitemid 44066249)
19. Naguib N, et al. (2004) Observation of water confined in nanometer channels of closed carbon nanotubes. Nano Lett 4:2237-2243.
20. Gong X, et al. (2007) A charge-driven molecular water pump. Nat Nanotechnol 2:709-712. (Pubitemid 350071061)
21. Liu C, Li Z (2010) Molecular dynamics simulation of composite nanochannels as nano-pumps driven by symmetric temperature gradients. Phys Rev Lett 105:174501.
22. Misawa M, Fukunaga T, Niihara K, Hirai T, Suzuki K (1979) Structure characterization of CVD amorphous Si3N4 by pulsed neutron total scattering. J Non Cryst Solids 34:313-321. (Pubitemid 10438596)
23. de Jonge N, Peckys DB, Kremers GJ, Piston DW (2009) Electron microscopy of whole cells in liquid with nanometer resolution. Proc Natl Acad Sci USA 106:2159-2164.
24. Williamson MJ, Tromp RM, Vereecken PM, Hull R, Ross FM (2003) Dynamic microscopy of nanoscale cluster growth at the solid-liquid interface. Nat Mater 2:532-536.
25. Zheng H, et al. (2009) Observation of single colloidal platinum nanocrystal growth trajectories. Science 324:1309-1312.
26. Rio E, Daerr A, Lequeux F, Limat L (2006) Moving contact lines of a colloidal suspension in the presence of drying. Langmuir 22:3186-3191.
27. Brunet P, Eggers J, Deegan RD (2007) Vibration-induced climbing of drops. Phys Rev Lett 99:144501.
28. Thompson PA, Robbins MO (1990) Origin of stick-slip motion in boundary lubrication. Science 250:792-794. (Pubitemid 120034298)
29. Urbakh M, Klafter J, Gourdon D, Israelachvili J (2004) The nonlinear nature of friction. Nature 430:525-528. (Pubitemid 38998619)
30. Brzoska JB, Brochard-Wyart F, Rondelez F (1993) Motions of droplets on hydrophobic model surfaces induced by thermal gradients. Langmuir 9:2220-2224. (Pubitemid 23713548)
31. Daniel S, Sircar S, Gliem J, Chaudhury MK (2004) Ratcheting motion of liquid drops on gradient surfaces. Langmuir 20:4085-4092.
32. Dos Santos FD, Ondarçuhu T (1995) Free-running droplets. Phys Rev Lett 75:2972-2975.
33. Brochard F (1989) Motions of droplets on solid surfaces induced by chemical or thermal gradients. Langmuir 5:432-438.
34. Greenspan HP (1978) On the motion of a small viscous droplet that wets a surface. J Fluid Mech 84:125-143.
35. Israelachvili J (2011) Intermolecular and Surface Forces (Academic, New York), 3rd Ed, pp 415-500.
36. Shanahan MER (1995) Simple theory of "stick-slip" wetting hysteresis. Langmuir 11:1041-1043.
37. Zwanzig R (1997) Two-state models of protein folding kinetics. Proc Natl Acad Sci USA 94:148-150.
38. Li Q, Tullis TE, Goldsby D, Carpick RW (2011) Frictional aging from interfacial bonding and origins of rate and state friction. Nature 480:233-236.
39. Lee C, et al. (2010) Frictional characteristics of atomically thin sheets. Science 328:76-80.