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51. Quenching-assisted actuation mechanisms in core–shell structured BiFeO3–BaTiO3 piezoceramics.

Author

Calisir, Ilkan, Kleppe, Annette K., Feteira, Antonio, and Hall, David A.

Abstract

Electromechanical actuation in piezoceramics is usually enhanced by creating chemically homogeneous materials with structurally heterogeneous morphotropic phase boundaries, leading to abrupt changes in ion displacement directions within the perovskite unit cell. In the present study, an alternative mechanism to enhance electromechanical coupling is found in both chemically and structurally heterogeneous BiFeO3–BaTiO3 lead-free piezoceramics. Such a mechanism is observed in a composition exhibiting core–shell type microstructure, associated with donor-type substitution of Ti4+ for Fe3+, and is primarily activated by thermal quenching treatment. Here, we describe the use of in situ high-energy synchrotron X-ray powder diffraction upon the application of a high electric field to directly monitor the ferroelectric and elastic interactions between these composite-like components, formed as core and shell regions within grains. Translational short or long-range ordering is observed in the BiFeO3-depleted shell regions which undergo significant structural alterations from pseudocubic Pm3¯m relaxor-ferroelectric in slow-cooled ceramics to rhombohedral R3c or R3m with long-range ferroelectric order in the quenched state. The strain contributions from each component are calculated, leading to the conclusion that the total macroscopic strain arises predominantly from the transformed shell after quenching. Such observations are also complemented by investigations of microstructure and electrical properties, including ferroelectric behaviour and temperature-dependent dielectric properties. [ABSTRACT FROM AUTHOR]

Published
2019
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55. Optimisation of functional properties in lead-free BiFeO3–BaTiO3 ceramics through La3+ substitution strategy.

Author

Calisir, Ilkan, Amirov, Abdulkarim. A., Kleppe, Annette K., and Hall, David A.

Abstract

The paper is concerned with the structure and functional properties of bismuth ferrite–barium titanate, 0.75BiFeO3–0.25BaTiO3, solid solutions. Such materials are attracting attention due to their potential applications in high temperature piezoelectric transducers for use in demanding environments in process monitoring, for example. The article focuses on the mechanism of incorporation of the minor dopant lanthanum oxide, either in the form of isovalent or donor-type substitution. It is shown that the development of chemical heterogeneity in the form of core–shell grain microstructures, linked to donor-type substitution, plays a key role in controlling the functional behaviour. The use of an air-quenching procedure results in dramatic improvements in the ferroelectric properties, accompanied by a transformation of the shell regions from a pseudo-cubic, Pm3̅m, to rhombohedral, R3c, structure. These observations are interpreted in terms of a novel mechanism involving nanoscale phase separation in the ‘shell’ regions during slow cooling, which impedes the development of ferroelectric ordering and leads to the formation of a nano-polar relaxor ferroelectric state. The work highlights the importance of immiscibility in bismuth-based ferroelectric perovskite solid solutions and illustrates how their ferroelectric, piezoelectric, dielectric energy storage, ferromagnetic and magneto-electric properties can be tuned by consideration of the substitution mechanism and control of thermal processing parameters. [ABSTRACT FROM AUTHOR]

Published
2018
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57. Synchrotron texture analysis of thick BiFeO3-PbTiO3 layers synthesised by tape casting using Aurivillius and non-Aurivillius templates

Author

Palizdar, Meghdad, Comyn, Tim P., Poterala, Stephen F., Messing, Gary L., Suvacı, Ender, Kleppe, Annette P., Bell, Andrew J., and Anadolu Üniversitesi, Mühendislik Fakültesi, Malzeme Bilimi ve Mühendisliği Bölümü

Subjects
Component, Magnetoelectric, Texture, Piezoelectric, Synchrotron
Abstract

21st IEEE ISAF, held Jointly with 11th ECAPD and 4th Conference on PFM and Nanoscale Phenomena in Polar Materials -- JUL 09-13, 2012 -- Univ Aveiro, Aveiro, PORTUGAL, WOS: 000313016400097, The solid solution between bismuth ferrite and lead titanate (xBiFeO(3)-(1-x)PbTiO3 or BFPT) possesses a morphotropic phase boundary (MPB) between the rhombohedral and tetragonal forms at x=0.7. It is of interest to investigate the influence of field-driven rhombohedral-tetragonal phase transitions across the MPB, to determine whether correctly oriented BFPT can provide both giant piezoelectric properties and significant magnetoelectric coupling. Here, we used the reactive templated grain growth (RTGG) technique to prepare crystallographically textured 0.6BiFeO(3)-0.4PbTiO(3) (60: 40 BFPT) ceramics. Both Aurivillius structure templates (Bi4Ti3O12 and PbBi4Ti4O15) and perovskite templates (BaTiO3 and SrTiO3) were used to prepare textured 60:40BFPT. Synchrotron radiation experiments were used to determine the degree of texture. A current data suggests that only BaTiO3 templates survive the sintering process, and other candidate template materials reacted with the 60: 40BFPT matrix at high temperature. In the case of SrTiO3, this reaction results in a low Curie temperature (T-c = 350 degrees C) due to the substitution of Sr2+. Aurivillius templates resulted in high Curie temperatures (610 degrees C) and may be chemically suitable if they could be stabilized during the sintering process. However, the resulting ceramics show low remanent polarization (P-r = 3 mu c/cm(2)), while SrTiO3 and BaTiO3 templated ceramics show higher remanent polarizations of 36 and 30 mu c/cm(2), respectively. Because of their high chemical stability in this system, BaTiO3 templates appear to be the best candidate for fabricating textured BFPT by the TGG method, displaying a high degree of crystallographic texture., IEEE, IEEE, Ultrason, Ferroelect & Frequency Control (UFFC) Soc

Published
2012
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58. Synchrotron texture analysis of thick BiFeO 3-PbTiO 3 layers synthesised by tape casting using Aurivillius and non-Aurivillius templates

Author

Palizdar, Meghdad, Comyn, Tim P., Poterala, Stephen F., Messing, Gary L., Suvacı, Ender, Kleppe, Annette P., Bell, Andrew J., Anadolu Üniversitesi, Mühendislik Fakültesi, Malzeme Bilimi ve Mühendisliği Bölümü, and Suvacı, Ender

Subjects
Magnetoelectric, Texture, Piezoelectric, Synchrotron
Abstract

Ultrason., Ferroelectr. Freq. Control;(UFFC) Soc. Inst. Electr. Electron. Eng. (IEEE), 2012 21st IEEE Int. Symp. on Applications of Ferroelectrics Held with 11th IEEE European Conf. on Applications of Polar Dielectrics and 4th IEEE Int. Symp on Piezoresponse Force Microscopy and Nanoscale Phenomena in Polar Materials, ISAF/ECAPD/PFM -- 9 July 2012 through 13 July 2012 -- Aveiro -- 93333, The solid solution between bismuth ferrite and lead titanate (xBiFeO 3-(1-x)PbTiO 3 or BFPT) possesses a morphotropic phase boundary (MPB) between the rhombohedral and tetragonal forms at x=0.7. It is of interest to investigate the influence of field-driven rhombohedral-tetragonal phase transitions across the MPB, to determine whether correctly oriented BFPT can provide both giant piezoelectric properties and significant magnetoelectric coupling. Here, we used the reactive templated grain growth (RTGG) technique to prepare crystallographically textured 0.6BiFeO 3-0.4PbTiO 3 (60:40 BFPT) ceramics. Both Aurivillius structure templates (Bi 4Ti 3O 12 and PbBi 4Ti 4O 15) and perovskite templates (BaTiO 3 and SrTiO 3) were used to prepare textured 60:40BFPT. Synchrotron radiation experiments were used to determine the degree of texture. A current data suggests that only BaTiO 3 templates survive the sintering process, and other candidate template materials reacted with the 60:40BFPT matrix at high temperature. In the case of SrTiO 3, this reaction results in a low Curie temperature (T c = 350 °C) due to the substitution of Sr 2+. Aurivillius templates resulted in high Curie temperatures (610 °C) and may be chemically suitable if they could be stabilized during the sintering process. However, the resulting ceramics show low remanent polarization (P r = 3 µc/cm 2), while SrTiO 3 and BaTiO 3 templated ceramics show higher remanent polarizations of 36 and 30 µc/cm 2, respectively. Because of their high chemical stability in this system, BaTiO 3 templates appear to be the best candidate for fabricating textured BFPT by the TGG method, displaying a high degree of crystallographic texture.

Published
2012

60. Correlated defect nanoregions in a metal-organic framework

Author

Cliffe, Matthew J., Wan, Wei, Zou, Xiaodong, Chater, Philip A., Kleppe, Annette K., Tucker, Matthew G., Wilhelm, Heribert, Funnell, Nicholas P., Coudert, Francois-Xavier, Goodwin, Andrew L., Cliffe, Matthew J., Wan, Wei, Zou, Xiaodong, Chater, Philip A., Kleppe, Annette K., Tucker, Matthew G., Wilhelm, Heribert, Funnell, Nicholas P., Coudert, Francois-Xavier, and Goodwin, Andrew L.

Abstract

Throughout much of condensed matter science, correlated disorder is a key to material function. While structural and compositional defects are known to exist within a variety of metal-organic frameworks (MOFs), the prevailing understanding is that these defects are only ever included in a random manner. Here we show-using a combination of diffuse scattering, electron microscopy, anomalous X-ray scattering and pair distribution function measurements-that correlations between defects can in fact be introduced and controlled within a hafnium terephthalate MOF. The nanoscale defect structures that emerge are an analogue of correlated Schottky vacancies in rocksalt-structured transition metal monoxides and have implications for storage, transport, optical and mechanical responses. Our results suggest how the diffraction behaviour of some MOFs might be reinterpreted, and establish a strategy of exploiting correlated nanoscale disorder as a targetable and desirable motif in MOF design., AuthorCount:10

Published
2014
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65. Texture analysis of thick bismuth ferrite lead titanate layers

Author

Palizdar, Meghdad, primary, Mallick, Dhiman, additional, Maity, Tuhin, additional, Roy, Saibal, additional, Comyn, Tim P, additional, Stevenson, Tim J, additional, Fancher, Chris M., additional, Jones, Jacob L., additional, Poterala, Stephen F., additional, Messing, Gary L., additional, Suvaci, Ender, additional, Kleppe, Annette P., additional, Jehcoat, Andrew J., additional, and Bell, Andrew J, additional

Published
2014
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66. Correlated defect nanoregions in a metal–organic framework

Author

Cliffe, Matthew J., primary, Wan, Wei, additional, Zou, Xiaodong, additional, Chater, Philip A., additional, Kleppe, Annette K., additional, Tucker, Matthew G., additional, Wilhelm, Heribert, additional, Funnell, Nicholas P., additional, Coudert, François-Xavier, additional, and Goodwin, Andrew L, additional

Published
2014
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68. Synthesis of a Novel Zeolite through a Pressure-Induced Reconstructive Phase Transition Process

Author

Universitat Politècnica de València. Instituto Universitario Mixto de Tecnología Química - Institut Universitari Mixt de Tecnologia Química, Universitat Politècnica de València. Departamento de Química - Departament de Química, Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada, Ministerio de Ciencia e Innovación, Generalitat Valenciana, Universitat Politècnica de València, Ministerio de Economía y Competitividad, Jorda Moret, Jose Luis, Rey Garcia, Fernando, Sastre Navarro, German Ignacio, Valencia Valencia, Susana, Palomino Roca, Miguel, Corma Canós, Avelino, Segura Garcia del Rio, Alfredo, Errandonea, Daniel, Lacomba Perales, Raúl, Manjón Herrera, Francisco Javier, Gomis Hilario, Oscar, Kleppe, Annette K., Jephcoat, Andrew P., Amboage, Mónica, Rodríguez-Velamazán, J. Alberto, Universitat Politècnica de València. Instituto Universitario Mixto de Tecnología Química - Institut Universitari Mixt de Tecnologia Química, Universitat Politècnica de València. Departamento de Química - Departament de Química, Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada, Ministerio de Ciencia e Innovación, Generalitat Valenciana, Universitat Politècnica de València, Ministerio de Economía y Competitividad, Jorda Moret, Jose Luis, Rey Garcia, Fernando, Sastre Navarro, German Ignacio, Valencia Valencia, Susana, Palomino Roca, Miguel, Corma Canós, Avelino, Segura Garcia del Rio, Alfredo, Errandonea, Daniel, Lacomba Perales, Raúl, Manjón Herrera, Francisco Javier, Gomis Hilario, Oscar, Kleppe, Annette K., Jephcoat, Andrew P., Amboage, Mónica, and Rodríguez-Velamazán, J. Alberto

Abstract

The first pressure-induced solid-phase synthesis of a zeolite has been found through compression of a common zeolite, ITQ-29 (see scheme, Si yellow, O red). The new microporous structure, ITQ-50, has a unique structure and improved performance for propene/propane separation with respect the parent material ITQ-29.

Published
2013

69. Electron density of molecular crystals at high pressure from synchrotron data

Author

Jephcoat, Andrew, Kleppe, Annette, Macchi, Piero, and Casati, Nicola

Subjects
02 engineering and technology, 010403 inorganic & nuclear chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Biochemistry, 0104 chemical sciences, Inorganic Chemistry, Structural Biology, 540 Chemistry, 570 Life sciences, biology, General Materials Science, Physical and Theoretical Chemistry, 0210 nano-technology
Abstract

Accurate electron density mapping is quite a common practice for crystals cooled at low temperature and accurately measured. This is not true for species under external perturbation, due to complicated experimental conditions. Studying molecular crystals in excited states is a challenge, Coppens(2009), and a purely experimental electron density mapping is not possible at present. So far, the same limitation affected molecular crystals at high pressure, with only few attempts to use theoretical multipoles to fit experimental data, Fabbiani (2011). Here we report on the first unconstrained multipolar model, refined for syn-l,6;8,13 biscarbonyl[14]annulene (BCA) at P=7.7 GPa. BCA was the subject of a low temperature data collection by Destro (1995). The molecule (close to C2v symmetry) has a fair aromaticity, but it progressively localizes double and single bonds as a function of pressure. At 7.7 GPa the geometrical distortion is quite evident and mirrored by the electron density. The experiment, carried out at Diamond Light Source, was possible combining: a) high energy (40 Kev) to overcome the resolution problems caused by diamond anvil cells and reduce absorption and extinction; b) microfocused beam (30 micron) to minimize spurious X-ray diffusion; c) two crystals in the DAC, to increase data coverage; d) sufficient pressure to quench atomic motion. The final agreement is obviously worse than what typically obtained at ambient pressure. However, the model is satisfactory because: a) the deformation density is sensible and in agreement with the calculated one; b) the distribution of residuals is normal and no significant error is evident. The study proves that aromatic molecules are more reactive when squeezed, in keeping with the recent theoretical study by Hoffmann et al. on benzene. The Figure shows the static deformation density of BCA in 3D, obtained from a multipolar model refined against the experimental structure factors.

Published
2014

70. Synthesis of a Novel Zeolite through a Pressure‐Induced Reconstructive Phase Transition Process

Author

Jordá, Jose L., primary, Rey, Fernando, additional, Sastre, German, additional, Valencia, Susana, additional, Palomino, Miguel, additional, Corma, Avelino, additional, Segura, Alfredo, additional, Errandonea, Daniel, additional, Lacomba, Raúl, additional, Manjón, Francisco J., additional, Gomis, Óscar, additional, Kleppe, Annette K., additional, Jephcoat, Andrew P., additional, Amboage, Mónica, additional, and Rodríguez‐Velamazán, J. Alberto, additional

Published
2013
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77. Questioning the evidence of Earth's oldest fossils

Author

Brasier, Martin, Green, Owen, Jephcoat, Andrew, Kleppe, Annette, Van Kranendonk, Martin, Lindsay, John, Steele, Andrew, Grassineau, Nathalie, Brasier, Martin, Green, Owen, Jephcoat, Andrew, Kleppe, Annette, Van Kranendonk, Martin, Lindsay, John, Steele, Andrew, and Grassineau, Nathalie

Abstract

Structures resembling remarkably preserved bacterial and cyanobacterial microfossils from ∼3,465-million-year-old Apex cherts of the Warrawoona Group in Western Australia currently provide the oldest morphological evidence for life on Earth and have bee

Published
2002

81. New high-pressure van der Waals compound Kr(H2)4 discovered in the krypton-hydrogen binary system.

Author

Kleppe, Annette K., Amboage, Mónica, and Jephcoat, Andrew P.

Subjects
*KRYPTON, *HYDROGEN, *NOBLE gases, *CLOSED shell molecular systems, *DIAMOND anvil cell, *RARE gas compounds
Abstract

The application of pressure to materials can reveal unexpected chemistry. Under compression, noble gases form stoichiometric van der Waals (vdW) compounds with closed-shell molecules such as hydrogen, leading to a variety of unusual structures. We have synthesised Kr(H2)4 for the first time in a diamond-anvil high-pressure cell at pressures≥5.3 GPa and characterised its structural and vibrational properties to above 50 GPa. The structure of Kr(H2)4, as solved by single-crystal synchrotron X-ray diffraction, is face-centred cubic (fcc) with krypton atoms forming isolated octahedra at fcc sites. Rotationally disordered H2 molecules occupy four different, interstitial sites, consistent with the observation of four Raman activeH2 vibrons. The discovery of Kr(H2)4 expands the range of pressure-stabilised, hydrogen-rich vdW solids, and, in comparison with the two known rare-gas-H2 compounds, Xe(H2)8 and Ar(H2)2, reveals an increasing change in hydrogen molecular packing with increasing rare gas atomic number. [ABSTRACT FROM AUTHOR]

Published
2014
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82. A state-of-the-art review of micron-scale spatially resolved residual stress analysis by FIB-DIC ring-core milling and other techniques

Author

Nowell, David, Lunt, Alexander JG, Baimpas, Nikolaos, Salvati, Enrico, Dolbnya, Igor P, Sui, Tan, Ying, Siqi, Zhang, Hongjia, Kleppe, Annette K, Dluhoš, Jiri, and Korsunsky, Alexander M

Abstract

Quantification of residual stress gradients can provide great improvements in understanding the complex interactions between microstructure, mechanical state, mode(s) of failure and structural integrity. Highly focused local probe non-destructive techniques such as X-ray diffraction, electron diffraction or Raman spectroscopy have an established track record in determining spatial variations in the relativechanges in residual stress with respect to a reference state for many structural materials. However, the interpretation of these measurements in terms of absolutestress values requires a strain-free sample often difficult to obtain due to the influence of chemistry, microstructure or processing route. With the increasing availability of focused ion beam instruments, a new approach has been developed which is known as the micro-scale ring-core focused ion beam-digital image correlation technique. This technique is becoming the principal tool for quantifying absolutein-plane residual stresses. It can be applied to a broad range of materials: crystalline and amorphous metallic alloys and ceramics, polymers, composites and biomaterials. The precise nano-scale positioning and well-defined gauge volume of this experimental technique make it eminently suitable for spatially resolvedanalysis, that is, residual stress profiling and mapping. Following a summary of micro-stress evaluation approaches, we focus our attention on focused ion beam-digital image correlation methods and assess the application of micro-scale ring-core methods for spatially resolved residual stress profiling. The sequentialring-core milling focused ion beam-digital image correlation method allows micro- to macro-scale mapping at the step of 10–1000 μm, while the parallelfocused ion beam-digital image correlation approach exploits simultaneous milling operation to quantify stress profiles at the micron scale (1–10 μm). Cross-validation against X-ray diffraction results confirms that these approaches represent accurate, reliable and effective residual stress mapping methods.

Published
2015
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83. High-pressure Raman spectroscopic study of Fo90 hydrous wadsleyite

Author

Kleppe, Annette, Jephcoat, Andrew, and Smyth, Joseph

Abstract

Abstract: Raman spectra of monoclinic Fo90 hydrous wadsleyite with 2.4 wt% H2O have been measured in a diamond-anvil cell with helium as a pressure-transmitting medium to 58.4 GPa at room temperature. The most intense, characteristic wadsleyite modes, the Si–O–Si symmetric stretch at 721 cm−1 and the symmetric stretch of the SiO3 unit at 918 cm−1, shift continuously to 58.4 GPa showing no evidence of a first order change in the crystal structure despite compression well beyond the stability field of wadsleyite in terms of pressure. The pressure dependence of these two modes is nearly identical for Fo90 hydrous and Fo100 anhydrous wadsleyite. A striking feature in the high-pressure Raman spectra of Fo90 hydrous wadsleyite is the appearance of new Raman modes above 9 GPa in the mid-frequency range (300–650 cm−1 at 1-bar and shifted to 500–850 cm−1 at 58.4 GPa) accompanied by a significant growth in their intensities under further compression. In the OH stretching frequency range Fo90 hydrous wadsleyite exhibits a larger number of modes than the Mg end-member phase. The higher number of modes may be due to either additional protonation sites or simply that we observe a different subset of all possible OH modes for each sample. The high-pressure behaviour of the OH stretching modes of Fo90 and Fo100 hydrous wadsleyite is consistent: OH stretching modes with frequencies <3,530 cm−1 decrease with increasing pressure whereas the higher-frequency OH modes show a close to constant pressure dependence to at least 13.2 GPa. The approximately constant pressure dependence of the OH modes above 3,530 cm−1 is consistent with protons being located at the O1···O edges around M3.

Published
2006
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84. Letter. Novel high-pressure behavior in chlorite: A synchrotron XRD study of clinochlore to 27 GPa

Author

Welch, Mark D., Kleppe, Annette K., and Jephcoat, Andrew P.

Abstract

The high-pressure behavior of synthetic end-member IIb clinochlore, Mg5Al(Si3Al)O10(OH)8, has been studied by synchrotron X-ray powder diffraction to 27 GPa at 300 K. A non-quenchable, reversible transformation occurs between 9 and 10 GPa that is dominated by compression normal to the structural layering and has an associated small but significant shear of the β angle from 97.2 to 96.3°. The high-pressure chlorite is more compressible than the low-pressure phase. Diffraction patterns of the high-pressure chlorite are very similar from 10 to 27 GPa, indicating that it persists stably with no significant change in β to very high pressures: β is effectively locked at the transformation to the high-pressure structure. It is proposed that the transformation is not polytypic and that the distortion reflects reorganization of the interlayer hydrogen bonding, possibly involving novel proton behavior as adjacent sheets of cations of the brucite-like and tetrahedral layers close down on the sheet of interlayer protons. The transformation is likely driven by O atom close-packing requirements imposed by pressure.

Published
2004
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85. Observation of dose-rate dependence in a Fricke dosimeter irradiated at low dose rates with monoenergetic X-rays

Author

Boscolo, Daria, Breslin, Nicole, Brown, Jeremy M. C., Dolbnya, Igor P., Emerson, Chris, Figueira, Catarina, Fox, Oliver J. L., Grimes, David Robert, Ivosev, Vladimir, Kleppe, Annette K., McCulloch, Aaron, Pape, Ian, Polin, Chris, and Wardlow, Nathan

Subjects
3. Good health
Abstract

Scientific reports 8(1), 4735 (2018). doi:10.1038/s41598-018-21813-z, Published by Nature Publishing Group, London

87. Diffraction study of pressure-amorphized ZrW2O8 using in situ and recovered samples.

Author

Keen, David A., Goodwin, Andrew L., Tucker, Matthew G., Hriljac, Joseph A., Bennett, Thomas D., Dove, Martin T., Kleppe, Annette K., Jephcoat, Andrew P., and Brunelli, Michela

Subjects
*X-ray diffraction, *CRYSTALLINE electric field, *AMORPHOUS substances, *STRUCTURAL frame models, *TOPOLOGY
Abstract

High-energy x-ray diffraction data from a series of amorphous ZrW2O8 samples, recovered from a number of different pressures, have been measured and compared with similar data collected from a sample contained within a diamond anvil cell and measured in situ at high pressure. Samples at lower pressures are a mix of crystalline and amorphous phases, whereas those above 7 GPa (both recovered and in situ) appear to be completely amorphous. Although there are only very small changes in the diffraction data from the pure phase samples recovered from different pressures, larger changes are observed in situ as a function of pressure. However, the same structural model can be used to describe all data, albeit using different densities. This strongly suggests that the amorphous phase is undergoing nonreconstructive compression in this pressure range, without fundamental modification of the underlying topology. [ABSTRACT FROM AUTHOR]

Published
2011
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88. Observation of dose-rate dependence in a Fricke dosimeter irradiated at low dose rates with monoenergetic X-rays.

Author

O'Leary M, Boscolo D, Breslin N, Brown JMC, Dolbnya IP, Emerson C, Figueira C, Fox OJL, Grimes DR, Ivosev V, Kleppe AK, McCulloch A, Pape I, Polin C, Wardlow N, and Currell FJ

Abstract

Absolute measurements of the radiolytic yield of Fe3+ in a ferrous sulphate dosimeter formulation (6 mM Fe2+), with a 20 keV x-ray monoenergetic beam, are reported. Dose-rate suppression of the radiolytic yield was observed at dose rates lower than and different in nature to those previously reported with x-rays. We present evidence that this effect is most likely to be due to recombination of free radicals radiolytically produced from water. The method used to make these measurements is also new and it provides radiolytic yields which are directly traceable to the SI standards system. The data presented provides new and exacting tests of radiation chemistry codes.

Published
2018
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89. Synthesis of a novel zeolite through a pressure-induced reconstructive phase transition process.

Author

Jordá JL, Rey F, Sastre G, Valencia S, Palomino M, Corma A, Segura A, Errandonea D, Lacomba R, Manjón FJ, Gomis Ó, Kleppe AK, Jephcoat AP, Amboage M, and Rodríguez-Velamazán JA

Abstract

The first pressure-induced solid-phase synthesis of a zeolite has been found through compression of a common zeolite, ITQ-29 (see scheme, Si yellow, O red). The new microporous structure, ITQ-50, has a unique structure and improved performance for propene/propane separation with respect the parent material ITQ-29., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2013
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