Mosha H. Zhao scite author profile

The ability to manipulate dipole orientation in ferroelectric oxides holds promise as a method to tailor surface reactivity for specific applications. As ferroelectric domains can be patterned at the nanoscale, domain-specific surface chemistries may provide a method for fabrication of nanoscale devices. Although studies over the past 50 yr have suggested that ferroelectric domain orientation may affect the energetics of adsorption, definitive evidence is still lacking. Domain-dependent sticking coefficients are observed using temperature-programmed desorption and scanning surface potential microscopy, supported by first-principles calculations of the reaction coordinate. The first unambiguous observations of differences in the energetics of physisorption on ferroelectric domains are presented here for CH(3)OH and CO(2) on BaTiO(3) and Pb(Ti(0.52)Zr(0.48))O(3) surfaces.

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Effect of ferroelectric polarization on the adsorption and reaction of ethanol on BaTiO3

Zhao

Bonnell

Vohs

2008

Surface Science

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Influence of ferroelectric polarization on the energetics of the reaction of 2-fluoroethanol on BaTiO3

2009

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Ferroelectric polarization dependent interactions at Pd–LiNbO3(0001) interfaces

Zhao

Bonnell

Vohs

2009

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A combination of Auger electron spectroscopy and temperature-programed desorption was used to characterize the growth and interaction of Pd films with positively and negatively terminated ferroelectric LiNbO 3 (0001) surfaces. The growth mode of vapor-deposited Pd layers at 300 K was found to be dependent on the direction of the ferroelectric polarization with layer-by-layer growth occurring on the negative (c−) surface and particle formation occurring on the positive (c+) surface. The Pd metal layers were also found to be more thermally stable on the c− surface relative to the c+ surface. These results provide another example of how the polarization orientation in ferroelectric materials affects adsorption and reaction on their exposed surfaces. A combination of Auger electron spectroscopy and temperature-programed desorption was used to characterize the growth and interaction of Pd films with positively and negatively terminated ferroelectric LiNbO 3 ͑0001͒ surfaces. The growth mode of vapor-deposited Pd layers at 300 K was found to be dependent on the direction of the ferroelectric polarization with layer-by-layer growth occurring on the negative ͑c − ͒ surface and particle formation occurring on the positive ͑c + ͒ surface. The Pd metal layers were also found to be more thermally stable on the c− surface relative to the c+ surface. These results provide another example of how the polarization orientation in ferroelectric materials affects adsorption and reaction on their exposed surfaces. Disciplines Engineering | Materials Science and Engineering Comments

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Mosha H. Zhao

Direct in situ determination of the polarization dependence of physisorption on ferroelectric surfaces

Effect of ferroelectric polarization on the adsorption and reaction of ethanol on BaTiO3

Influence of ferroelectric polarization on the energetics of the reaction of 2-fluoroethanol on BaTiO3

Ferroelectric polarization dependent interactions at Pd–LiNbO3(0001) interfaces

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