Peter L. Lee scite author profile

Despite the ubiquity of ferrihydrite in natural sediments and its importance as an industrial sorbent, the nanocrystallinity of this iron oxyhydroxide has hampered accurate structure determination by traditional methods that rely on long-range order. We uncovered the atomic arrangement by real-space modeling of the pair distribution function (PDF) derived from direct Fourier transformation of the total x-ray scattering. The PDF for ferrihydrite synthesized with the use of different routes is consistent with a single phase (hexagonal space group P6(3)mc; a = approximately 5.95 angstroms, c = approximately 9.06 angstroms). In its ideal form, this structure contains 20% tetrahedrally and 80% octahedrally coordinated iron and has a basic structural motif closely related to the Baker-Figgis delta-Keggin cluster. Real-space fitting indicates structural relaxation with decreasing particle size and also suggests that second-order effects such as internal strain, stacking faults, and particle shape contribute to the PDFs.

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Rapid-acquisition pair distribution function (RA-PDF) analysis

Chupas

et al. 2003

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An image‐plate (IP) detector coupled with high‐energy synchrotron radiation was used for atomic pair distribution function (PDF) analysis, with high probed momentum transfer Qmax≤ 28.5 Å−1, from crystalline materials. Materials with different structural complexities were measured to test the validity of the quantitative data analysis. Experimental results are presented for crystalline Ni, crystalline α‐AlF3, and the layered Aurivillius type oxides α‐Bi4V2O11 and γ‐Bi4V1.7Ti0.3O10.85. Overall, the diffraction patterns show good counting statistics, with measuring time from one to tens of seconds. The PDFs obtained are of high quality. Structures may be refined from these PDFs, and the structural models are consistent with the published literature. Data sets from similar samples are highly reproducible.

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Pronounced Negative Thermal Expansion from a Simple Structure: Cubic ScF₃

et al. 2010

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Scandium trifluoride maintains a cubic ReO(3) type structure down to at least 10 K, although the pressure at which its cubic to rhombohedral phase transition occurs drops from >0.5 GPa at ∼300 K to 0.1-0.2 GPa at 50 K. At low temperatures it shows strong negative thermal expansion (NTE) (60-110 K, α(l) ≈ -14 ppm K(-1)). On heating, its coefficient of thermal expansion (CTE) smoothly increases, leading to a room temperature CTE that is similar to that of ZrW(2)O(8) and positive thermal expansion above ∼1100 K. While the cubic ReO(3) structure type is often used as a simple illustration of how negative thermal expansion can arise from the thermally induced rocking of rigid structural units, ScF(3) is the first material with this structure to provide a clear experimental illustration of this mechanism for NTE.

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Reduction of CuO and Cu₂O with H₂: H Embedding and Kinetic Effects in the Formation of Suboxides

et al. 2003

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Time-resolved X-ray diffraction, X-ray absorption fine structure, and first-principles density functional calculations were used to investigate the reaction of CuO and Cu(2)O with H(2) in detail. The mechanism for the reduction of CuO is complex, involving an induction period and the embedding of H into the bulk of the oxide. The in-situ experiments show that, under a normal supply of hydrogen, CuO reduces directly to metallic Cu without formation of an intermediate or suboxide (i.e., no Cu(4)O(3) or Cu(2)O). The reduction of CuO is easier than the reduction of Cu(2)O. The apparent activation energy for the reduction of CuO is about 14.5 kcal/mol, while the value is 27.4 kcal/mol for Cu(2)O. During the reduction of CuO, the system can reach metastable states (MS) and react with hydrogen instead of forming Cu(2)O. To see the formation of Cu(2)O, one has to limit the flow of hydrogen, slowing the rate of reduction to allow a MS --> Cu(2)O transformation. These results show the importance of kinetic effects for the formation of well-defined suboxides during a reduction process and the activation of oxide catalysts.

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A dedicated powder diffraction beamline at the Advanced Photon Source: Commissioning and early operational results

Wang

Toby²,

Lee³

et al. 2008

358

333

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A new dedicated high-resolution high-throughput powder diffraction beamline has been built, fully commissioned, and opened to general users at the Advanced Photon Source. The optical design and commissioning results are presented. Beamline performance was examined using a mixture of the NIST Si and Al(2)O(3) standard reference materials, as well as the LaB6 line-shape standard. Instrumental resolution as high as 1.7 x 10(-4) (DeltaQQ) was observed.

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SOS Mutator DNA Polymerase IV Functions in Adaptive Mutation and Not Adaptive Amplification

McKenzie¹,

Lee²,

Lombardo³

et al. 2001

Molecular Cell

270

305

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Adaptive point mutation and amplification are induced responses to environmental stress, promoting genetic changes that can enhance survival. A specialized adaptive mutation mechanism has been documented in one Escherichia coli assay, but its enzymatic basis remained unclear. We report that the SOS-inducible, error-prone DNA polymerase (pol) IV, encoded by dinB, is required for adaptive point mutation in the E. coli lac operon. A nonpolar dinB mutation reduces adaptive mutation frequencies by 85% but does not affect adaptive amplification, growth-dependent mutation, or survival after oxidative or UV damage. We show that pol IV, together with the major replicase, pol III, can account for all adaptive point mutations at lac. The results identify a role for pol IV in inducible genetic change.

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Structure of single-phase superconducting K3C60

Stephens

Mihály

Lee

et al. 1991

Nature

741

266

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A versatile sample-environment cell for non-ambient X-ray scattering experiments

et al. 2008

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A compact reaction cell is described for in‐situ experiments requiring control of both the temperature of the sample and the atmosphere over the sample. The cell incorporates an optional furnace capable of temperatures of up to ∼1273 K. The compact design and ability of the cell to mount directly on a standard goniometer head allows portability to a large number of diffraction instruments at synchrotron sources.

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Peter L. Lee

The Structure of Ferrihydrite, a Nanocrystalline Material

Rapid-acquisition pair distribution function (RA-PDF) analysis

Pronounced Negative Thermal Expansion from a Simple Structure: Cubic ScF₃

Reduction of CuO and Cu₂O with H₂: H Embedding and Kinetic Effects in the Formation of Suboxides

A dedicated powder diffraction beamline at the Advanced Photon Source: Commissioning and early operational results

SOS Mutator DNA Polymerase IV Functions in Adaptive Mutation and Not Adaptive Amplification

Structure of single-phase superconducting K3C60

A versatile sample-environment cell for non-ambient X-ray scattering experiments

Contact Info

Product

Resources

About

Peter L. Lee

The Structure of Ferrihydrite, a Nanocrystalline Material

Rapid-acquisition pair distribution function (RA-PDF) analysis

Pronounced Negative Thermal Expansion from a Simple Structure: Cubic ScF3

Reduction of CuO and Cu2O with H2: H Embedding and Kinetic Effects in the Formation of Suboxides

A dedicated powder diffraction beamline at the Advanced Photon Source: Commissioning and early operational results

SOS Mutator DNA Polymerase IV Functions in Adaptive Mutation and Not Adaptive Amplification

Structure of single-phase superconducting K3C60

A versatile sample-environment cell for non-ambient X-ray scattering experiments

Contact Info

Product

Resources

About

Pronounced Negative Thermal Expansion from a Simple Structure: Cubic ScF₃

Reduction of CuO and Cu₂O with H₂: H Embedding and Kinetic Effects in the Formation of Suboxides