08: Surfaceenergy,melng, andweng - John Hart · 2017. 7. 11. · ©2010%|%A.J.%Hart|%5%...
Transcript of 08: Surfaceenergy,melng, andweng - John Hart · 2017. 7. 11. · ©2010%|%A.J.%Hart|%5%...
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Nanomanufacturing University of Michigan ME599-‐002 | Winter 2010
08: Surface energy, mel8ng, and we;ng
February 8, 2010
John Hart [email protected] hEp://www.umich.edu/~ajohnh
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Announcements § HW2 posted, due M Feb/22
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Recap: intermolecular and surface forces § ElectrostaMc/polarizaMon interacMons cause intermolecular forces, at length scales of 1-‐100 nm (short-‐long range)
§ We can calculate forces between solid bodies by summing pairwise interacMon potenMals, e.g., for van der Waals forces using the Lennard-‐Jones potenMal
§ These forces pracMcally govern adhesion, local deformaMon, and assembly of nanostructures
Hertel et al., Physical Review B 58(20):13870, 1998.
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VDW energies for regular geometries
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Adhesion scaling in nature
Artl et al., PNAS 100(19):10603-‐10606, 2003.
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Synthe8c gecko adhesives
Ge et al., PNAS 104(26):10792-‐10795, 2007. Zeng et al., Langmuir 25(13):7486–7495, 2009.
Gecko
CNTs
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Today’s agenda § DefiniMon of surface energy and work of adhesion § Thermodynamic model of melMng point decrease (suppression) of nanoparMcles
§ GeneralizaMon to different geometries § Design of non-‐wegng surfaces
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Today’s readings Nominal: (on ctools) § Couchman and Jesser, “Thermodynamic theory of size dependence of melMng temperature in metals”
§ Goldstein et al., “MelMng in semiconductor nanocrystals” § Tuteja et al., “Design parameters for superhydrophobicity and superoleophobicity”
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Surface energy (γ)
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Surface energy across the periodic table
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Model of nanopar8cle mel8ng
Assump8ons: § Spherical parMcle § MelMng begins at parMcle surface, with uniform liquid layer § No volume or density changes § FloaMng (no surrounding/substrate effects)
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Fit of thermodynamic theory to data (Indium)
Couchman et al., Nature 269:481, 1977.
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Is the catalyst solid or liquid?
Moisala et al., J. Phys. Cond. Ma.. 15:S3011, 2003.
Catalyst (Ni) CNT
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Watching quantum dots melt
Goldstein et al., Science 256:1425, 1992.
©2010 | A.J. Hart | 26 Goldstein et al., Science 256:1425, 1992.
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Magic numbers are more stable (Na)
Schmidt et al., Nature 393:238, 1998.
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Dimensionality effect: wires vs. spheres
Gulseren et al., Phys. Rev. B. 51(11):7337, 1995.
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Hydrophilic or hydrophobic? (see videos)
Courtesy of Hyungwoo Lee, MIT
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We;ng § Wegng is the ability of a liquid to maintain contact with a solid surface, resulMng from intermolecular interacMons when the liquid and solid are brought together
§ Thus, the degree of wegng is determined by a force balance between adhesive and cohesive forces
§ Liquids more frequently wet solids having high surface energy (i.e., strongly bonded solids) than solids with low surface energy (i.e., VDW solids). It’s pracMcally difficult to prevent low surface energy liquids from wegng solids.
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Textured surfaces: Cassie and Wenzel states
Droplet condensa8on and growth in ESEM
Advancing and receding contact angles –mul8ple stable contact angles
Nosonovsky and Bhusan, Nano LeEers 7(9):2633-‐2637, 2007.
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Superhydrophobicity: petal and lotus effects § Rose petals and lotus leaves are both superhydrophobic; however, droplets roll off lotus leaves but do not roll off rose petals
Feng et al., Langmuir 24(8):4114-‐4119, 2008.
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Texture + chemistry: PTFE-‐coated CNT forest
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Apparent contact angle of microstructures
Tuteja et al., MRS BulleMn 33:752-‐758, 2008. Tuteja et al., PNAS 105(47):18200-‐18205, 2008.