Your search keyword '"Hanna JV"' showing total 15 results

1. 3D printed silica-gelatin hybrid scaffolds of specific channel sizes promote collagen Type II, Sox9 and Aggrecan production from chondrocytes.

Author

Nelson M, Li S, Page SJ, Shi X, Lee PD, Stevens MM, Hanna JV, and Jones JR

Subjects

Aggrecans, Collagen Type II, Printing, Three-Dimensional, Silicon Dioxide, Tissue Engineering, Tissue Scaffolds, Chondrocytes, Gelatin

Abstract

Inorganic/organic hybrids have co-networks of inorganic and organic components, with the aim of obtaining synergy of the properties of those components. Here, a silica-gelatin sol-gel hybrid "ink" was directly 3D printed to produce 3D grid-like scaffolds, using a coupling agent, 3-glycidyloxypropyl)trimethoxysilane (GPTMS), to form covalent bonds between the silicate and gelatin co-networks. Scaffolds were printed with 1 mm strut separation, but the drying method affected the final architecture and properties. Freeze drying produced <40 μm struts and large ~700 μm channels. Critical point drying enabled strut consolidation, with ~160 μm struts and ~200 μm channels, which improved mechanical properties. This architecture was critical to cellular response: when chondrocytes were seeded on the scaffolds with 200 μm wide pore channels in vitro, collagen Type II matrix was preferentially produced (negligible amount of Type I or X were observed), indicative of hyaline-like cartilaginous matrix formation, but when pore channels were 700 μm wide, Type I collagen was prevalent. This was supported by Sox9 and Aggrecan expression. The scaffolds have potential for regeneration of articular cartilage regeneration, particularly in sports medicine cases., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

2. Simultaneous MQMAS NMR Experiments for Two Half-Integer Quadrupolar Nuclei.

Author

Page SJ, Gallo A, Brown SP, Lewandowski JR, Hanna JV, and Franks WT

Abstract

A procedure to acquire two Multiple-Quantum Magic Angle Spinning (MQMAS) NMR experiments with the same instrument time is presented. A triply tuned probe is utilized with multiple receivers to collect data with staggered acquisitions and thus more efficiently use the instrument time. The data for one nucleus is collected during the recovery delay of the other nucleus, and vice versa. The instrument time is reduced to 60-80% of the time needed for the single acquisition collection Specifically our approach is presented for recording triple-quantum (3Q) 17 O and either 3Q or quintuple-quantum (5Q) 27 Al MAS NMR spectra of a 1.18Na 2 O•5SiO 2 •Al 2 O 3 glass gel., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

3. Compound-specific δ 15 N values express differences in amino acid metabolism in plants of varying lignin content.

Author

Kendall IP, Woodward P, Clark JP, Styring AK, Hanna JV, and Evershed RP

Subjects

Amino Acids chemistry, Lignin metabolism, Molecular Structure, Nitrogen Isotopes, Nuclear Magnetic Resonance, Biomolecular, Poa metabolism, Tilia metabolism, Amino Acids metabolism, Lignin chemistry, Poa chemistry, Tilia chemistry

Abstract

Amino acid δ 15 N values of foliage of various plant taxa, grown at the experimental farm stations of North Wyke, UK and Bad Lauchstädt, Germany were determined by GC-C-IRMS. The difference between δ 15 N values of glutamate (Glx) and phenylalanine (Phe) were found to differ significantly between woody and herbaceous plants, with mean Δ 15 N Glx-Phe (i.e. δ 15 N Phe - δ 15 N Glx ) values of -9.3 ± 1.6‰ and -5.8 ± 2.1‰, respectively. These differences in values are hypothesised to be due to the involvement of Phe in the phenylpropanoid pathway, by which lignin and other phenolic secondary metabolites are produced, leading to isotopic fractionation and enrichment of the remaining Phe pool available for protein biosynthesis. This results in the more negative Δ 15 N Glx-Phe values observed in woody plants relative to herbaceous plants, as the former are assumed to produce more lignin. To test this assumption, plant leaf tissue lignin concentrations were estimated by solid state 13 C cross-polarisation, magic-angle-spinning (CPMAS) NMR spectroscopy for a subset of plants, which showed that tree foliage has a higher concentration of lignin (12.6 wt%) than herbaceous foliage (6.3 wt%). The correlation of lignin concentration with Δ 15 N Glx-Phe values demonstrates that the difference in these values with plant type is indeed due to differential production of lignin. The ability to estimate the lignin content of plants from amino acid δ 15 N values will, to give one example, allow refinement of estimates of herbivore diet in present and past ecosystems, enabling more accurate environmental niche modelling., (Copyright © 2019. Published by Elsevier Ltd.)

Published

2019

4. New composites of nanoparticle Cu (I) oxide and titania in a novel inorganic polymer (geopolymer) matrix for destruction of dyes and hazardous organic pollutants.

Author

Falah M, MacKenzie KJD, Knibbe R, Page SJ, and Hanna JV

Abstract

New photoactive composites to efficiently remove organic dyes from water are reported. These consist of Cu2O/TiO2 nanoparticles in a novel inorganic geopolymer matrix modified by a large tertiary ammonium species (cetyltrimethylammonium bromide, CTAB) whose presence in the matrix is demonstrated by FTIR spectroscopy. The CTAB does not disrupt the tetrahedral geopolymer structural silica and alumina units as demonstrated by (29)Si and (27)Al MAS NMR spectroscopy. SEM/EDS, TEM and BET measurements suggest that the Cu2O/TiO2 nanoparticles are homogenously distributed on the surface and within the geopolymer pores. The mechanism of removal of methylene blue (MB) dye from solution consists of a combination of adsorption (under dark conditions) and photodegradation (under UV radiation). MB adsorption in the dark follows pseudo second-order kinetics and is described by Freundlich-Langmuir type isotherms. The performance of the CTAB-modified geopolymer based composites is superior to composites based on unmodified geopolymer hosts, the most effective composite containing 5wt% Cu2O/TiO2 in a CTAB-modified geopolymer host. These composites constitute a new class of materials with excellent potential in environmental protection applications., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

5. From crystalline to amorphous calcium pyrophosphates: A solid state Nuclear Magnetic Resonance perspective.

Author

Gras P, Baker A, Combes C, Rey C, Sarda S, Wright AJ, Smith ME, Hanna JV, Gervais C, Laurencin D, and Bonhomme C

Subjects

Aged, 80 and over, Bone Cements, Calcium chemistry, Crystallization, Crystallography, Humans, Hydrogen Bonding, Inflammation, Ions, Models, Molecular, Molecular Conformation, Osteoarthritis physiopathology, Protons, Water chemistry, X-Ray Diffraction, Biocompatible Materials chemistry, Calcium Pyrophosphate chemistry, Nuclear Magnetic Resonance, Biomolecular

Abstract

Hydrated calcium pyrophosphates (CPP, Ca2P2O7·nH2O) are a fundamental family of materials among osteoarticular pathologic calcifications. In this contribution, a comprehensive multinuclear NMR (Nuclear Magnetic Resonance) study of four crystalline and two amorphous phases of this family is presented. (1)H, (31)P and (43)Ca MAS (Magic Angle Spinning) NMR spectra were recorded, leading to informative fingerprints characterizing each compound. In particular, different (1)H and (43)Ca solid state NMR signatures were observed for the amorphous phases, depending on the synthetic procedure used. The NMR parameters of the crystalline phases were determined using the GIPAW (Gauge Including Projected Augmented Wave) DFT approach, based on first-principles calculations. In some cases, relaxed structures were found to improve the agreement between experimental and calculated values, demonstrating the importance of proton positions and pyrophosphate local geometry in this particular NMR crystallography approach. Such calculations serve as a basis for the future ab initio modeling of the amorphous CPP phases., Statement of Significance: The general concept of NMR crystallography is applied to the detailed study of calcium pyrophosphates (CPP), whether hydrated or not, and whether crystalline or amorphous. CPP are a fundamental family of materials among osteoarticular pathologic calcifications. Their prevalence increases with age, impacting on 17.5% of the population after the age of 80. They are frequently involved or associated with acute articular arthritis such as pseudogout. Current treatments are mainly directed at relieving the symptoms of joint inflammation but not at inhibiting CPP formation nor at dissolving these crystals. The combination of advanced NMR techniques, modeling and DFT based calculation of NMR parameters allows new original insights in the detailed structural description of this important class of biomaterials., (Copyright © 2016. Published by Elsevier Ltd.)

Published

2016

6. Furthering the understanding of silicate-substitution in α-tricalcium phosphate: an X-ray diffraction, X-ray fluorescence and solid-state nuclear magnetic resonance study.

Author

Duncan J, Hayakawa S, Osaka A, MacDonald JF, Hanna JV, Skakle JM, and Gibson IR

Subjects

Silicon chemistry, Calcium Phosphates chemistry, Magnetic Resonance Spectroscopy, Silicates chemistry, Spectrometry, X-Ray Emission, X-Ray Diffraction

Abstract

High-purity (SupT) and reagent-grade (ST), stoichiometric and silicate-containing α-tricalcium phosphate (α-TCP: ST0/SupT0 and Si-TCP x=0.10: ST10/SupT10) were prepared by solid-state reaction based on the substitution mechanism Ca3(PO4)(2-x)(SiO4)x. Samples were determined to be phase pure by X-ray diffraction (XRD), and Rietveld analysis performed on the XRD data confirmed inclusion of Si in the α-TCP structure as determined by increases in unit cell parameters; particularly marked increases in the b-axis and β-angle were observed. X-ray fluorescence (XRF) confirmed the presence of expected levels of Si in Si-TCP compositions as well as significant levels of impurities (Mg, Al and Fe) present in all ST samples; SupT samples showed both expected levels of Si and a high degree of purity. Phosphorus ((31)P) magic-angle-spinning solid-state nuclear magnetic resonance (MAS NMR) measurements revealed that the high-purity reagents used in the synthesis of SupT0 can resolve the 12 expected peaks in the (31)P spectrum of α-TCP compared to the low-purity ST0 that showed significant spectral line broadening; line broadening was also observed with the inclusion of Si which is indicative of induced structural disorder. Silicon ((29)Si) MAS NMR was also performed on both Si-TCP samples which revealed Q(0) species of Si with additional Si Q(1)/Q(2) species that may indicate a potential charge-balancing mechanism involving the inclusion of disilicate groups; additional Q(4) Si species were also observed, but only for ST10. Heating and cooling rates were briefly investigated by (31)P MAS NMR which showed no significant line broadening other than that associated with the emergence of β-TCP which was only realised with the reagent-grade sample ST0. This study provides an insight into the structural effects of Si-substitution in α-TCP and could provide a basis for understanding how substitution affects the physicochemical properties of the material., (Copyright © 2013 Acta Materialia Inc. All rights reserved.)

Published

2014

7. The role of the chemical composition of monetite on the synthesis and properties of α-tricalcium phosphate.

Author

Duncan J, Macdonald JF, Hanna JV, Shirosaki Y, Hayakawa S, Osaka A, Skakle JM, and Gibson IR

Subjects

Hot Temperature, Magnetic Resonance Spectroscopy, Microscopy, Electron, Scanning, Spectrometry, X-Ray Emission, Thermogravimetry, X-Ray Diffraction, Calcium Phosphates chemical synthesis, Calcium Phosphates chemistry

Abstract

There has been a resurgence of interest in alpha-tricalcium phosphate (α-TCP), with use in cements, polymer composites and in bi- and tri-phasic calcium phosphate bone grafts. The simplest and most established method for preparing α-TCP is the solid state reaction of monetite (CaHPO4) and calcium carbonate at high temperatures, followed by quenching. In this study, the effect of the chemical composition of reagents used in the synthesis of α-TCP on the local structure of the final product is reported and findings previously reported pertaining to the phase composition and stability are also corroborated. Chemical impurities in the monetite reagents were identified and could be correlated to the calcium phosphate products formed; magnesium impurities favoured the formation of β-TCP, whereas single phase α-TCP was favoured when magnesium levels were low. Monetite synthesised in-house exhibited a high level of chemical purity; when this source was used to produce an α-TCP sample, the α-polymorph could be obtained by both quenching and by cooling to room temperature in the furnace at rates between 1 and 10°C/min, thereby simplifying the synthesis process. It was only when impurities were minimised that the 12 phosphorus environments in the α-TCP structure could be resolved by (31)P nuclear magnetic resonance; samples containing chemical impurity showed differing degrees of line-broadening. Reagent purity should therefore be considered a priority when synthesising/characterising the α-polymorph of TCP., (© 2013.)

Published

2014

8. Bioactivity in silica/poly(γ-glutamic acid) sol-gel hybrids through calcium chelation.

Author

Valliant EM, Romer F, Wang D, McPhail DS, Smith ME, Hanna JV, and Jones JR

Subjects

Chelating Agents chemistry, Materials Testing, Phase Transition, Polyglutamic Acid chemistry, Apatites chemical synthesis, Biocompatible Materials chemical synthesis, Body Fluids chemistry, Calcium chemistry, Carbonates chemical synthesis, Polyglutamic Acid analogs & derivatives, Silicon Dioxide chemistry

Abstract

Bioactive glasses and inorganic/organic hybrids have great potential as biomedical implant materials. Sol-gel hybrids with interpenetrating networks of silica and biodegradable polymers can combine the bioactive properties of a glass with the toughness of a polymer. However, traditional calcium sources such as calcium nitrate and calcium chloride are unsuitable for hybrids. In this study calcium was incorporated by chelation to the polymer component. The calcium salt form of poly(γ-glutamic acid) (γCaPGA) was synthesized for use as both a calcium source and as the biodegradable toughening component of the hybrids. Hybrids of 40wt.% γCaPGA were successfully formed and had fine scale integration of Ca and Si ions, according to secondary ion mass spectrometry imaging, indicating a homogeneous distribution of organic and inorganic components. (29)Si magic angle spinning nuclear magnetic resonance data demonstrated that the network connectivity was unaltered with changing polymer molecular weight, as there was no perturbation to the overall Si speciation and silica network formation. Upon immersion in simulated body fluid a hydroxycarbonate apatite surface layer formed on the hybrids within 1week. The polymer molecular weight (Mw 30-120kDa) affected the mechanical properties of the resulting hybrids, but all hybrids had large strains to failure, >26%, and compressive strengths, in excess of 300MPa. The large strain to failure values showed that γCaPGA hybrids exhibited non-brittle behaviour whilst also incorporating calcium. Thus calcium incorporation by chelation to the polymer component is justified as a novel approach in hybrids for biomedical materials., (Copyright © 2013 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2013

9. Titanium phosphate glass microspheres for bone tissue engineering.

Author

Lakhkar NJ, Park JH, Mordan NJ, Salih V, Wall IB, Kim HW, King SP, Hanna JV, Martin RA, Addison O, Mosselmans JF, and Knowles JC

Subjects

Anions, Cations, Cell Line, Tumor, Cell Proliferation drug effects, Differential Thermal Analysis, Humans, Hydrogen-Ion Concentration, Magnetic Resonance Spectroscopy, Microscopy, Confocal, Particle Size, Temperature, X-Ray Absorption Spectroscopy, X-Ray Diffraction, Bone and Bones drug effects, Bone and Bones physiology, Glass chemistry, Microspheres, Tissue Engineering methods, Titanium pharmacology

Abstract

We have demonstrated the successful production of titanium phosphate glass microspheres in the size range of ∼10-200 μm using an inexpensive, efficient, easily scalable process and assessed their use in bone tissue engineering applications. Glasses of the following compositions were prepared by melt-quench techniques: 0.5P₂O₅-0.4CaO-(0.1-x)Na₂O-xTiO₂, where x=0.03, 0.05 and 0.07 mol fraction (denoted as Ti3, Ti5 and Ti7 respectively). Several characterization studies such as differential thermal analysis, degradation (performed using a novel time lapse imaging technique) and pH and ion release measurements revealed significant densification of the glass structure with increased incorporation of TiO₂ in the glass from 3 to 5 mol.%, although further TiO₂ incorporation up to 7 mol.% did not affect the glass structure to the same extent. Cell culture studies performed using MG63 cells over a 7-day period clearly showed the ability of the microspheres to provide a stable surface for cell attachment, growth and proliferation. Taken together, the results confirm that 5 mol.% TiO₂ glass microspheres, on account of their relative ease of preparation and favourable biocompatibility, are worthy candidates for use as substrate materials in bone tissue engineering applications., (Copyright © 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2012

10. Structural characterization and physical properties of P2O5-CaO-Na2O-TiO2 glasses by Fourier transform infrared, Raman and solid-state magic angle spinning nuclear magnetic resonance spectroscopies.

Author

Kiani A, Hanna JV, King SP, Rees GJ, Smith ME, Roohpour N, Salih V, and Knowles JC

Subjects

Biocompatible Materials chemistry, Calcium Phosphates chemistry, Materials Testing, Titanium chemistry, X-Ray Diffraction methods, Glass chemistry, Magnetic Resonance Spectroscopy methods, Spectroscopy, Fourier Transform Infrared methods, Spectrum Analysis, Raman methods

Abstract

Phosphate-based glasses have been investigated for tissue engineering applications. This study details the properties and structural characterization of titanium ultra-phosphate glasses in the 55(P(2)O(5))-30(CaO)-(25-x)(Na(2)O)-x(TiO(2)) (0≤x≤5) system, which have been prepared via melt-quenching techniques. Structural characterization was achieved by a combination of X-ray diffraction (XRD), and solid-state nuclear magnetic resonance, Raman and Fourier transform infrared spectroscopies. Physical properties were also investigated using density, degradation and ion release studies; additionally, differential thermal analysis was used for thermal analysis of these glasses. The results show that with the addition of TiO(2) the density and glass transition temperature increased whereas the degradation and ion release properties are decreased. From XRD data, TiP(2)O(7) and CaP(2)O(6) were detected in 3 and 5 mol.% TiO(2)-containing glasses. Magic angle spinning nuclear magnetic resonance results confirmed that as TiO(2) is incorporated into the glass; the amount of Q(3) increases as the amount of Q(2) consequently decreases, indicating increasing polymerization of the phosphate network. Spectroscopy results also showed that the local structure of glasses changes with increasing TiO(2) content. As TiO(2) is incorporated into the glass, the phosphate connectivity increases, indicating that the addition of TiO(2) content correlates unequivocally with an increase in glass stability., (Copyright © 2011 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2012

11. Recent technique developments and applications of solid state NMR in characterising inorganic materials.

Author

Hanna JV and Smith ME

Subjects

Inorganic Chemicals analysis, Magnetic Resonance Spectroscopy instrumentation, Inorganic Chemicals chemistry, Magnetic Resonance Spectroscopy methods

Abstract

A broad overview is given of some key recent developments in solid state NMR techniques that have driven enhanced applications to inorganic materials science. Reference is made to advances in hardware, pulse sequences and associated computational methods (e.g. first principles calculations, spectral simulation), along with their combination to provide more information about solid phases. The resulting methodology has allowed more nuclei to be observed and more structural information to be extracted. Cross referencing between experimental parameters and their calculation from the structure has given an added dimension to NMR as a characterisation probe of materials. Emphasis is placed on the progress made in the last decade especially from those nuclei that were little studied previously. The general points about technique development and the increased range of nuclei observed are illustrated through some specific exemplars from inorganic materials science., (2010 Elsevier Inc. All rights reserved.)

Published

2010

12. Multiple-magnetic field 139La NMR and density functional theory investigation of the solid lanthanum(III) halides.

Author

Ooms KJ, Feindel KW, Willans MJ, Wasylishen RE, Hanna JV, Pike KJ, and Smith ME

Abstract

Results from a solid-state 139La NMR spectroscopic investigation of the anhydrous lanthanum(III) halides (LaX3; X=F, Cl, Br, I) at applied magnetic fields of 7.0, 9.4, 11.7, 14.1, and 17.6 T are presented and highlight the advantages of working at high applied magnetic field strengths. The 139La quadrupolar coupling constants are found to range from 15.55 to 24.0 MHz for LaCl3 and LaI3, respectively. The lanthanum isotropic chemical shifts exhibit an inverse halogen dependence with values ranging from -135 ppm for LaF3 to 700 ppm for LaI3, which represents nearly half of the total lanthanum chemical shift range. The spans of the magnetic shielding tensors also vary widely, from 35 to 650 ppm for the solid LaF3 through LaI3. DFT calculations of the 139La electric field gradient and magnetic shielding tensors have been performed and provide a qualitative interpretation of the trends observed experimentally.

Published

2005

13. Anisotropy in the 31P, 63/65Cu indirect spin-spin coupling and 31P nuclear shielding tensors of linear copper(I) phosphines.

Author

Kroeker S, Hanna JV, Wasylishen RE, Ainscough EW, and Brodie AM

Subjects

Anisotropy, Phosphorus Isotopes, Sensitivity and Specificity, Copper, Magnetic Resonance Spectroscopy, Phosphines chemistry

Abstract

Phosphorus-31 CP/MAS NMR spectra of two linear bis(tribenzylphosphine)cuprate(I) salts reveal significant anisotropy in the one-bond 31P, 63,65Cu J tensors. The parallel and perpendicular components of 1J(31P, 63Cu), for example, are +2.0 and +1.3 kHz, respectively. The well-characterized space group and point symmetry in one of these compounds greatly simplifies the 31P lineshape analysis, thus dispensing with the need to make assumptions about the interaction tensors involved. This offers an unique opportunity to study DeltaJ by calculating dipolar coupling constants from known internuclear distances, and by using zero-field nuclear quadrupole resonance spectroscopy to obtain the magnitudes of the 63/65Cu nuclear quadrupole coupling constants, CQ. Copper-63 CQ values in these complexes exceed 80 MHz, proving to be the largest reported for copper(I) phosphines. Phosphorus-31 NMR spectra of non-spinning samples at three applied magnetic fields are also presented, along with lineshape calculations based on full-matrix Zeeman-quadrupolar Hamiltonian diagonalization. It is shown that exact 31P lineshape calculations provide the relative signs of CQ, the isotropic J-coupling, and the effective dipolar coupling constant. This appears to be the first unambiguous determination of Delta1J(31P, 63/65Cu)., (Copyright 1998 Academic Press.)

Published

1998

14. Cross-polarization dynamics in 2,6-dimethylbicyclo[3.3.1]nonane-exo-2-exo-6-diol inclusion compounds as studied by 13C magic-angle spinning nuclear magnetic resonance spectroscopy.

Author

Gizachew D, Van Gorkom LC, Dance IG, Hanna JV, and Wilson MA

Subjects

Carbon Isotopes, Models, Molecular, Molecular Structure, Benzene Derivatives chemistry, Bridged Bicyclo Compounds chemistry, Hydrocarbons, Halogenated chemistry, Magnetic Resonance Spectroscopy methods

Abstract

Solid-state 13C nuclear magnetic resonance (NMR) spectra of a number of inclusion compounds of 2,6-dimethyl-bicyclo[3.3.1]nonane-exo-2-exo-6-diol (host) with small organic small molecules (guests) have been studied. With 3,4-dichloro-1,2,5-thiadiazole and tetrachloroethylene as guests, line splittings of the host resonances were observed due to the location of the guest in the host lattice. The cross-polarization (CP) dynamics of these inclusion compounds have been studied and shown to be indicative of weakly coupled systems. As expected, the proton spin lattice relaxation times in the rotating frame (T1pH) of the host are increased by the presence of rapidly moving guest because the efficiency of homonuclear dipolar relaxation in the rotating frame is reduced. However, strong transient oscillations were also observed for the guest molecules during the Hartmann-Hahn transfer of magnetisation from the more abundant 1H spins to the 13C spins during spin lattice rotating frame relaxation. These oscillations were found to be greatest for carbons with largest chemical shift anisotropies.

Published

1994

15. 71Ga and 31P MAS NMR spectroscopic studies of cloverite.

Author

Bradley SM, Howe RF, and Hanna JV

Subjects

Spectrophotometry, Infrared, X-Ray Diffraction, Gallium chemistry, Magnetic Resonance Spectroscopy, Phosphorus chemistry

Abstract

71Ga and 31P MAS NMR studies have been undertaken of the gallophosphate molecular sieve, cloverite. Two 71Ga resonances were observed of the as-synthesized cloverite (ambient humidity) at 92 and -24 ppm. The first of these is assigned to five coordinate and the second to six coordinate gallium, where in both cases there is one fluoride ion in the first gallium coordination sphere. Dehydration of the sample decreased the intensity of the six coordinate signal relative to that of the five coordinate one, whereas hydrating had the reverse effect, suggesting that the upfield signal is due to six coordinate gallium sites generated through the adsorption of water. The 31P MAS NMR spectrum of a dehydrated sample revealed one weak resonance at -0.8 ppm as well as strong signals at -9.7 and -11.2 ppm. The -0.8 ppm resonance is attributed to the T5 [P(OGa)3OH] sites whereas the strong signals are assigned to the T1-T4 sites [P(OGa)4]. Upon humidifying, several new resonances appear between 0 and -6 ppm which have been assigned to phosphorus atoms having nearest neighbour gallium atoms in varying degrees of hydration.

Published

1993