Emil S. Božin scite author profile

PDFfit2 is a program as well as a library for real-space refinement of crystal structures. It is capable of fitting a theoretical three-dimensional (3D) structure to atomic pair distribution function data and is ideal for nanoscale investigations. The fit system accounts for lattice constants, atomic positions and anisotropic atomic displacement parameters, correlated atomic motion, and experimental factors that may affect the data. The atomic positions and thermal coefficients can be constrained to follow the symmetry requirements of an arbitrary space group. The PDFfit2 engine is written in C++ and is accessible via Python, allowing it to inter-operate with other Python programs. PDFgui is a graphical interface built on the PDFfit2 engine. PDFgui organizes fits and simplifies many data analysis tasks, such as configuring and plotting multiple fits. PDFfit2 and PDFgui are freely available via the Internet.

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Structure of V₂O₅·nH₂O Xerogel Solved by the Atomic Pair Distribution Function Technique

Petkov

et al. 2002

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A long-standing issue regarding the local and long-range structure of V(2)O(5)*nH(2)O xerogel has been successfully addressed. The full three-dimensional structure of the lamellar turbostratic V(2)O(5)*nH(2)O xerogel was determined by the atomic pair distribution function technique. We show that on the atomic scale the slabs of the xerogel can be described well as almost perfect pairs (i.e., bilayers) of single V(2)O(5) layers made of square pyramidal VO(5) units. These slabs are separated by water molecules and stack along the z-axis of a monoclinic unit cell (space group C2/m) with parameters a = 11.722(3) A, b = 3.570(3) A, c = 11.520(3) A, and beta = 88.65 degrees. The stacking sequence shows signatures of turbostratic disorder and a structural coherence limited to 50 A.

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Entropically Stabilized Local Dipole Formation in Lead Chalcogenides

Božin

Malliakas

Souvatzis

et al. 2010

Science

336

337

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We report the observation of local structural dipoles that emerge from an undistorted ground state on warming, in contrast to conventional structural phase transitions in which distortions emerge on cooling. Using experimental and theoretical probes of the local structure, we demonstrate this behavior in binary lead chalcogenides, which were believed to adopt the ideal, undistorted rock-salt structure at all temperatures. The behavior is consistent with a simple thermodynamic model in which the emerging dipoles are stabilized in the disordered state at high temperature due to the extra configurational entropy despite the fact that the undistorted structure has lower internal energy. Our findings shed light on the anomalous electronic and thermoelectric properties of the lead chalcogenides. Similar searches may show that the phenomenon is more widespread.

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Crystal-Field Splitting and Correlation Effect on the Electronic Structure ofA2IrO3

et al. 2013

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The electronic structure of the honeycomb lattice iridates Na(2)IrO(3) and Li(2)IrO(3) has been investigated using resonant inelastic x-ray scattering (RIXS). Crystal-field-split d-d excitations are resolved in the high-resolution RIXS spectra. In particular, the splitting due to noncubic crystal fields, derived from the splitting of j(eff)=3/2 states, is much smaller than the typical spin-orbit energy scale in iridates, validating the applicability of j(eff) physics in A(2)IrO(3). We also find excitonic enhancement of the particle-hole excitation gap around 0.4 eV, indicating that the nearest-neighbor Coulomb interaction could be large. These findings suggest that both Na(2)IrO(3) and Li(2)IrO(3) can be described as spin-orbit Mott insulators, similar to the square lattice iridate Sr(2)IrO(4).

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Emil S. Božin

PDFfit2 and PDFgui: computer programs for studying nanostructure in crystals

Structure of V₂O₅·nH₂O Xerogel Solved by the Atomic Pair Distribution Function Technique

Entropically Stabilized Local Dipole Formation in Lead Chalcogenides

Crystal-Field Splitting and Correlation Effect on the Electronic Structure ofA2IrO3

Contact Info

Product

Resources

About

Emil S. Božin

PDFfit2 and PDFgui: computer programs for studying nanostructure in crystals

Structure of V2O5·nH2O Xerogel Solved by the Atomic Pair Distribution Function Technique

Entropically Stabilized Local Dipole Formation in Lead Chalcogenides

Crystal-Field Splitting and Correlation Effect on the Electronic Structure ofA2IrO3

Contact Info

Product

Resources

About

Structure of V₂O₅·nH₂O Xerogel Solved by the Atomic Pair Distribution Function Technique