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| [[Image:Video contact angle.gif|thumb|right|[[Contact angle]] measurements can be used to determine the surface energy of a material. Here, a drop of water on glass.]]
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| '''Surface energy''' quantifies the disruption of intermolecular bonds that occur when a surface is created. In the [[physics]] of [[solid]]s, surfaces must be intrinsically less energetically favorable than the bulk of a material (the molecules on the surface have more energy compared with the molecules in the bulk of the material), otherwise there would be a driving force for surfaces to be created, removing the bulk of the material (see [[sublimation (chemistry)|sublimation]]). The surface energy may therefore be defined as the excess energy at the surface of a material compared to the bulk.
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| For a liquid, the [[surface tension]] (force per unit length) and the surface energy density are identical. Water has a surface energy density of 0.072 J/m<sup>2</sup> and a surface tension of 0.072 N/m; the units are equivalent.
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| Cutting a solid body into pieces disrupts its bonds, and therefore consumes energy. If the cutting is done reversibly (see [[Reversible process (thermodynamics)|reversible]]), then [[conservation of energy]] means that the energy consumed by the cutting process will be equal to the energy inherent in the two new surfaces created. The unit surface energy of a material would therefore be half of its energy of [[Cohesion (chemistry)|cohesion]], all other things being equal; in practice, this is true only for a surface freshly prepared in vacuum. Surfaces often change their form away from the simple "cleaved bond" model just implied above. They are found to be highly dynamic regions, which readily rearrange or react, so that energy is often reduced by such processes as [[Passivation (chemistry)|passivation]] or [[adsorption]].
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| ==Measuring the surface energy of a liquid==
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| As first described by [[Thomas Young (scientist)|Thomas Young]] in 1805 in the ''Philosophical Transactions of the Royal Society of London'', it is the interaction between the forces of [[cohesion (chemistry)|cohesion]] and the forces of [[adhesion]] which determines whether or not [[wetting]], the spreading of a liquid over a surface, occurs. If complete wetting does not occur, then a bead of liquid will form, with a [[contact angle]] which is a function of the surface energies of the system.
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| [[Image:Rame-hart goniometer.jpg|thumb|300px|Surface scientists use a goniometer to measure contact angle and surface energy.]]
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| Surface energy is most commonly quantified using a contact angle [[goniometer]] and a number of different methods.
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| [[Image:Contact angle.svg|thumb|300px|A liquid droplet rests on a solid surface and is surrounded by gas. The contact angle <math>\theta_\mathrm{c}</math> is the angle formed by a liquid at the three-phase boundary where the liquid, gas, and solid meet.]]
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| ===Young's equation===
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| [[Thomas Young (scientist)|Young]] established the well-regarded '''Young's Equation''' which defines the balances of forces caused by a wet drop on a dry surface. If the surface is [[Hydrophobe|hydrophobic]] then the contact angle of a drop of water will be larger. [[Hydrophile|Hydrophilicity]] is indicated by smaller contact angles and higher surface energy. (Water has rather high surface energy by nature; it is [[Chemical polarity|polar]] and forms [[hydrogen bond]]s).
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| The Young equation gives the following relation,
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| :<math>\gamma_{\mathrm{SL}}+\gamma_{\mathrm{LG}}\cos{\theta_\mathrm{c}}=\gamma_{\mathrm{SG}}\,</math>
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| where <math>\gamma_{\mathrm{SL}}</math>, <math>\gamma_{\mathrm{LG}}</math>, and <math>\gamma_{\mathrm{SG}}</math> are the interfacial tensions between the solid and the liquid, the liquid and the vapor, and the solid and the vapor, respectively. The [[Hydrostatic equilibrium|equilibrium]] contact angle that the drop makes with the surface is denoted by <math>\theta_\mathrm{c}</math>. To derive the Young equation, the interfacial tensions are described as forces per unit length and then an one-dimensional force equilibrium is established along the solid boundary.<!-- Sentence Needs Revision -->
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| The Young equation assumes a perfectly flat surface, and in many cases surface roughness and impurities cause a deviation in the equilibrium contact angle from the contact angle predicted by Young's equation. Even in a perfectly smooth surface a drop will assume a wide spectrum of contact angles ranging from the so-called '''advancing contact angle''', <math>\theta_\mathrm{A}</math>, to the so-called '''receding contact angle''', <math>\theta_\mathrm{R}</math>. The equilibrium contact angle (<math>\theta_\mathrm{c}</math>) can be calculated from <math>\theta_\mathrm{A}</math> and <math>\theta_\mathrm{R}</math> as was shown theoretically by Tadmor <ref name="Tadm">{{cite journal|title=Line energy and the relation between advancing, receding and Young contact angles|doi=10.1021/la049410h|year=2004|last1=Tadmor|first1=Rafael|journal=Langmuir|volume=20|pages=7659|pmid=15323516|issue=18}}</ref> and confirmed experimentally by Chibowski <ref name="Chib">{{cite journal|doi=10.1016/j.jcis.2007.10.059|title=Surface free energy of sulfur—Revisited I. Yellow and orange samples solidified against glass surface |year=2008|last1=Chibowski|first1=Emil|journal=Journal of Colloid and Interface Science|volume=319|pages=505}}</ref> as,
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| :<math>
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| \theta_\mathrm{c}=\arccos\left(\frac{r_\mathrm{A}\cos{\theta_\mathrm{A}}+r_\mathrm{R}\cos{\theta_\mathrm{R}}}{r_\mathrm{A}+r_\mathrm{R}}\right)
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| </math>
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| where
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| :<math>
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| r_\mathrm{A}=\left(\frac{\sin^3{\theta_\mathrm{A}}}{2-3\cos{\theta_\mathrm{A}}+\cos^3{\theta_\mathrm{A}}}\right)^{1/3}
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| ~;~~
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| r_\mathrm{R}=\left(\frac{\sin^3{\theta_\mathrm{R}}}{2-3\cos{\theta_\mathrm{R}}+\cos^3{\theta_\mathrm{R}}}\right)^{1/3}
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| </math>
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| In the case of "dry wetting", one can use the [[wetting|Young-Dupré equation]] which is expressed by the work of [[adhesion]]. This method accounts for the surface pressure of the liquid's vapor which can be significant. [[Pierre-Gilles de Gennes]], a Nobel Prize Laureate in Physics, describes wet and dry wetting and how the difference between the two relate to whether or not the vapor is saturated.<ref name="cwp">{{cite book|title=Capillary and Wetting Phenomena - Drops, Bubbles, Pearls, Waves|author=Pierre-Gilles de Gennes, Françoise Brochard-Wyart, David Quéré|publisher=Springer|year=2002|isbn=0-387-00592-7|url=http://books.google.com/?id=MxLQk8vms-kC&printsec=frontcover|others=Alex Reisinger}}</ref>
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| ==Measuring the surface energy of a solid==
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| The surface energy of a liquid may be measured by stretching a liquid [[Artificial membrane|membrane]] (which increases the surface area and hence the surface energy density). In that case, in order to increase the surface area of a mass of liquid by an amount, δA, a quantity of work, γδA, is needed (where γ is the surface energy density of the liquid). However, such a method cannot be used to measure the surface energy of a solid because stretching of a solid membrane induces elastic energy in the bulk in addition to increasing the surface energy.
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| The surface energy of a solid is usually measured at high temperatures. At such temperatures the solid [[Creep (deformation)|creeps]] and even though the surface area changes, the volume remains approximately constant. If γ is the surface energy density of a cylindrical rod of radius <math>r</math> and length <math>l</math> at high temperature and a constant uniaxial tension <math>P</math>, then at equilibrium, the [[Calculus of variations|variation]] of the total [[Gibbs free energy]] vanishes and we have
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| :<math>
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| \delta G = -P~\delta l + \gamma~\delta A = 0 \qquad \implies \qquad \gamma = P\cfrac{\delta l}{\delta A}
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| </math>
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| where <math>G</math> is the Gibbs free energy and <math>A</math> is the surface area of the rod:
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| :<math>
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| A = 2\pi r^2 + 2\pi r l \qquad \implies \qquad \delta A = 4\pi r\delta r + 2\pi l\delta r + 2\pi r\delta l
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| </math>
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| Also, since the volume (<math>V</math>) of the rod remains constant, the variation (<math>\delta V</math>) of the volume is zero, i.e.,
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| :<math>
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| V = \pi r^2 l = \text{constant} \qquad \implies \qquad \delta V = 2\pi r l \delta r + \pi r^2 \delta l = 0 \implies \delta r = -\cfrac{r}{2l}\delta l ~.
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| </math>
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| Therefore, the surface energy density can be expressed as
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| :<math>
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| \gamma = \cfrac{Pl}{\pi r(l-2r)} ~.
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| </math>
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| The surface energy density of the solid can be computed by measuring <math>P</math>, <math>r</math>, and <math>l</math> at equilibrium. | |
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| This method is valid only if the solid is [[Isotropy|isotropic]], meaning the surface energy is the same for all [[Crystallography|crystallographic]] orientations. While this is only strictly true for amorphous solids (glass) and liquids, isotropy is a good approximation for many other materials. In particular, if the sample is polygranular (most metals) or made by powder sintering (most ceramics) this is a good approximation.
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| In the case of single-crystal materials, such as natural gemstones, anisotropy in the surface energy leads to [[facet]]ing. The shape of the crystal (assuming [[Thermodynamic equilibrium|equilibrium]] growth conditions) is related to the surface energy by the [[Wulff construction]]. The surface energy of the facets can thus be found to within a scaling constant by measuring the relative sizes of the facets.
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| ==Calculating the surface energy of a deformed solid==
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| In the deformation of solids, surface energy can be treated as the "energy required to create one unit of surface area", and is a function of the difference between the total energies of the system before and after the deformation:
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| <math>\gamma = \frac{1}{A} (E_{1} - E_{0})</math>.
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| Calculation of surface energy from first principles is an alternative approach to measurement. Surface energy is estimated from the following variables: width of the d-band, the number of valence d-electrons, and the [[coordination number]] of atoms at the surface and in the bulk of the solid.<ref>D.P. Woodruff, ed. "The Chemical Physics of Solid Surfaces", Vol. 10, Elsevier, 2002.</ref>
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| ==Calculating the surface formation energy of a crystalline solid==
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| In the ab initio calculations, formation energy of the crystalline solid, such as [[titanium (IV) oxide]] or [[magnesium oxide]], can be obtained from the following equation: | |
| <math>E^{n-layers}_{surface} = \frac{E_{n} - k \cdot E_{bulk}}{2A}</math>
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| where <math>E_{n}</math> corresponds to the energy of the thin film of crystalline oxide, calculated from first principles, n stands for a number of atomic layers forming a model of the surface, while k is the number of repetitive units in a direction normal to the surface. A is the area of the primitive surface unit cell and the <math>E_{bulk}</math> is the energy per atomic layer in three-dimensional system.<ref name="BardzinskiPJ">{{cite journal|title=Determination of the electronic band structure of the rutile polymorph of TiO2: a quantum chemical approach|doi=10.2478/s13536-011-0035-3|last1=Bardziński|first1=Piotr J.|journal=Materials Science-Poland|volume=29|issue=3|year=2011|pages=227–228|url=http://www.springerlink.com/content/l5k2124674906076/|bibcode = 2011MatSP..29..223B }}</ref>
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| ==See also==
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| *[[Contact angle]]
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| *[[Surface tension]]
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| *[[Sessile drop technique]]
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| *[[Capillary surface]]
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| *[[Wulff Construction]]
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| ==References==
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| <!-- ----------------------------------------------------------
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| See http://en.wikipedia.org/wiki/Wikipedia:Footnotes for a
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| discussion of different citation methods and how to generate
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| footnotes using the <ref>, </ref> and <reference /> tags
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| ----------------------------------------------------------- -->
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| {{reflist}}
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| {{Footer energy}}
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| {{DEFAULTSORT:Surface Energy}}
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| [[Category:Forms of energy]]
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| [[Category:Condensed matter physics]]
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| [[Category:Surface chemistry]]
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