Polarization effects on the surface chemistry of PbTiO3-supported Pt films

To demonstrate a new paradigm of dynamical control of surface structure and reactivity, we perform density functional theory calculations of the adsorption of several molecules and atoms to the surface of ultrathin Pt(100) films supported on ferroelectric PbTiO3. We show that reorienting the polarization direction of the substrate can dramatically change the chemisorption energies of CO, O, C, and N and alter the reaction pathways for dissociation of CO, O2, N2, and NO. We discuss the structural and electronic effects of a polarized substrate on the metal surface, and we suggest potential applications in tunable catalysis.     

Nonmonotonic TC trends in bi-based ferroelectric perovskite solid solutions

We use first-principles density functional theory calculations to investigate the strongly nonlinear compositional trends in ferroelectric BiBO3-PbTiO3 solid solutions for a variety of cations on the perovskite B site. We demonstrate that previously tabulated crystal chemical parameters (extracted from other Pb-based perovskite alloys [Grinberg et al., J. Appl. Phys. 98, 094111 (2005)]) permit accurate prediction of cation displacements in these new Bi-Pb alloys. We find that observed transition temperatures in these materials are well correlated with computed polarization magnitudes. The presented model for coupling between compositional variation and cation displacements explains the highly nonlinear and often nonmonotonic dependence of the Curie temperature (T(C)) on composition observed in these solid solutions.     

Extraction of a quality assurance sediment sample for polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F)

An experimental design for two variables at three and four levels was used to investigate the Soxhlet extraction of polychlorinated dibenzo-p-dioxins/ dibenzofurans (PCDD/F) from a quality assurance sediment. The first variable was the solvent: toluene/methanol, toluene (both Soxhlet) and toluene in Soxhlet-Dean-Stark equipment. The second variable were four different bulks: silica, sulfuric acid treated silica, sodium carbonate and no bulk. Extractions with toluene/methanol and sulfuric acid provided only a small contribution to the overall extraction efficiency. Toluene/methanol preferably improved the extraction of PCDD, and the sulfuric acid improved the PCDF extraction. This was likely to reflect improved extraction efficiency of substructures in the sediment as pulp effluent remains (fiber) and fly-ash particulate. A previously found PCDD formation in extractions using toluene/methanol in presence of sodium carbonate was reproduced. A designed supercritical fluid extraction (SFE) experiment was also accomplished, however even under the best used conditions some PCDD/F were retained on the particulate compared to Soxhlet extraction. Variations in extraction efficiency in Soxhlet and SFE indicated that different subfractions of PCDD/F are connected to the matrix with different mechanisms, thus indicating that different PCDD/F fractions had different abilities to equilibrate also in the real environment. Received: 5 December 1997 / Revised: 9 February 1998 / Accepted: 15 February 1998     

Adsorbate-adsorbate interactions and chemisorption at different coverages studied by accurate ab initio calculations: CO on transition metal surfaces

We use density functional theory (DFT) with the generalized gradient approximation (GGA) and our first-principles extrapolation method for accurate chemisorption energies (Mason et al. Phys. Rev. B 2004, 69, 161401R) to calculate the chemisorption energy for CO on a variety of transition metal surfaces for various adsorbate densities and patterns. We identify adsorbate through-space repulsion, bonding competition, and substrate-mediated electron delocalization as key factors determining the preferred chemisorption patterns for different metal surfaces and adsorbate coverages. We discuss how the balance of these interactions, along with the inherent adsorption site preference on each metal surface, can explain the observed CO adsorbate patterns at different coverages.     

Mechanism of chromyl chloride epoxidation

Modern electronic structure methods including complete active space perturbation theory to second order (CASPT2), and a range of density functional (DFT) methods are used to characterize the intermediates and transition states associated with ethylene epoxidation by chromyl chloride. A novel zwitterionic direct addition pathway is characterized which, when coupled with a dinuclear complex, exothermically produces epoxide through a pathway with a small kinetic barrier.     

Extraction of a quality assurance sediment sample for polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F)

An experimental design for two variables at three and four levels was used to investigate the Soxhlet extraction of polychlorinated dibenzo-p-dioxins/ dibenzofurans (PCDD/F) from a quality assurance sediment. The first variable was the solvent: toluene/methanol, toluene (both Soxhlet) and toluene in Soxhlet-Dean-Stark equipment. The second variable were four different bulks: silica, sulfuric acid treated silica, sodium carbonate and no bulk. Extractions with toluene/methanol and sulfuric acid provided only a small contribution to the overall extraction efficiency. Toluene/methanol preferably improved the extraction of PCDD, and the sulfuric acid improved the PCDF extraction. This was likely to reflect improved extraction efficiency of substructures in the sediment as pulp effluent remains (fiber) and fly-ash particulate. A previously found PCDD formation in extractions using toluene/methanol in presence of sodium carbonate was reproduced. A designed supercritical fluid extraction (SFE) experiment was also accomplished, however even under the best used conditions some PCDD/F were retained on the particulate compared to Soxhlet extraction. Variations in extraction efficiency in Soxhlet and SFE indicated that different subfractions of PCDD/F are connected to the matrix with different mechanisms, thus indicating that different PCDD/F fractions had different abilities to equilibrate also in the real environment.