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1. A fundamental study on the degradation of paracetamol under single- and dual-frequency ultrasound

Author

Mehrdad Zare, Pello Alfonso-Muniozguren, Madeleine J. Bussemaker, Patrick Sears, Efraím A. Serna-Galvis, Ricardo A. Torres-Palma, and Judy Lee

Subjects
Pharmaceuticals, Sonodegradation, Cavitation, Dual-frequency ultrasound, Dosimetry, Sono(chemo)luminescence, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

The degradation of paracetamol, a widely found emerging pharmaceutical contaminant, was investigated under a wide range of single-frequency and dual-frequency ultrasonic irradiations. For single-frequency ultrasonic irradiation, plate transducers of 22, 98, 200, 300, 400, 500, 760, 850, 1000, and 2000 kHz were employed and for dual-frequency ultrasonic irradiation, the plate transducers were coupled with a 20 kHz ultrasonic horn in opposing configuration. The sonochemical activity was quantified using two dosimetry methods to measure the yield of HO• and H2O2 separately, as well as sonochemiluminescence measurement. Moreover, the severity of the bubble collapses as well as the spatial and size distribution of the cavitation bubbles were evaluated via sonoluminescence measurement. The paracetamol degradation rate was maximised at 850 kHz, in both single and dual-frequency ultrasonic irradiation. A synergistic index higher than 1 was observed for all degrading frequencies (200 – 1000 kHz) under dual-frequency ultrasound irradiation, showing the capability of dual-frequency system for enhancing pollutant degradation. A comparison of the results of degradation, dosimetry, and sonoluminescence intensity measurement revealed the stronger dependency of the degradation on the yield of HO• for both single and dual-frequency systems, which confirms degradation by HO• as the main removal mechanism. However, an enhanced degradation for frequencies higher than 500 kHz was observed despite a lower HO• yield, which could be attributed to the improved mass transfer of hydrophilic compounds at higher frequencies. The sonoluminescence intensity measurements showed that applying dual-frequency ultrasonic irradiation for 200 and 400 kHz made the bubbles larger and less uniform in size, with a portion of which not contributing to the yield of reactive oxidant species, whereas for the rest of the frequencies, dual-frequency ultrasound irradiation made the cavitation bubbles smaller and more uniform, resulting in a linear correlation between the overall sonoluminescence intensity and the yield of reactive oxidant species.

Published
2023
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8. Exploring Rapid, Sensitive and Reliable Detection of Trace Explosives Using Paper Spray Mass Spectrometry (PS‐MS)

Author

Kirsten Mosegaard, Patrick Sears, Vladimir Palitsin, Melanie J. Bailey, Catia Costa, Elsje M. van Es, and Josephine Bunch

Subjects
Detection limit, Analyte, Chromatography, Materials science, 010304 chemical physics, Explosive material, General Chemical Engineering, Picric acid, General Chemistry, 010402 general chemistry, Mass spectrometry, Tetryl, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, 0103 physical sciences
Abstract

In this publication we work towards providing fast, sensitive and selective analysis of explosive compounds collected on swabs using paper spray mass spectrometry. We have (a) increased the size of the paper spray substrate to 1.6×2.1 cm for compatibility with current practise in swabbing for explosive material; (b) developed a method for determining a successful extraction of analyte from the substrate to reduce false negative events; and (c) expanded the range of analytes that can be detected using paper spray to include the peroxide explosive HMTD, as well as nitroglycerine (NG), picric acid (PA) and tetryl. We report the development of a 30 s method for the simultaneous detection of 7 different explosive materials using PSMS with detection limits below 25 pg, as well as detection of HMTD at 2500 pg, showing an improvement on previously published work.

Published
2019

9. Ambient ionisation mass spectrometry for the trace detection of explosives using a portable mass spectrometer

Author

David Douce, Daniel Burns, Nicola Lumley, Chris Hopley, Simone C. Mathias, Bryan J. McCullough, Steve Bajic, and Patrick Sears

Subjects
Detection limit, Explosive material, Analytical chemistry, Repeatability, Condensed Matter Physics, Mass spectrometry, Tetryl, Sensitivity (explosives), chemistry.chemical_compound, chemistry, Ionization, Calibration, Physical and Theoretical Chemistry, Instrumentation, Spectroscopy
Abstract

Five different classes of explosives were analysed by ambient ionisation mass spectrometry testing selectivity, sensitivity, and repeatability. We compare the effectiveness of two techniques (ASAP and SESI) for the trace detection of five explosives representative of the most common classes of high explosive: HMTD, RDX, PETN, Tetryl and TNT. Experiments also compared the effectiveness of sample loading via a glass fibre swab or glass rod. All analyses were carried out with a Waters Acquity QDa mass spectrometer, a small format mass spectrometer which can be operated in a transportable mode (using ambient air and a small diaphragm pump). Both ambient ionisation techniques, ASAP and SESI, successfully detected the five different explosives which could make them suitable for a screening method. By directly comparing a calibration range of 0.8–10 ng on both swabs and rods for each explosive, it appears that SESI produces less variability per repeat, particularly at the higher end of the range when compared to ASAP which typically has a lower limit of detection and better linearity.

Published
2022

10. Nanoextraction coupled to liquid chromatography mass spectrometry delivers improved spatially resolved analysis

Author

Janella de Jesus, Holly-May Lewis, Vladimir Palitsin, Richard J. A. Goodwin, Josephine Bunch, Melanie J. Bailey, Roger P. Webb, John G. Swales, Patrick Sears, Guido F. Verbeck, and Catia Costa

Subjects
Analyte, Chromatography, Chemistry, Capillary action, 010401 analytical chemistry, Extraction (chemistry), Repeatability, 010402 general chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Solvent, Matrix (chemical analysis), Liquid chromatography–mass spectrometry
Abstract

Direct analyte probed nanoextraction (DAPNe) is a technique that allows extraction of drug and endogenous compounds from a discrete location on a tissue sample using a nano capillary filled with solvent. Samples can be extracted from a spot diameters as low as 6 µm. Studies previously undertaken by our group have shown that the technique can provide good precision (5%) for analysing drug molecules in 150 µm diameter areas of homogenised tissue, provided an internal standard is sprayed on to the tissue prior to analysis. However, without an isotopically labelled standard, the repeatability is poor, even after normalisation to and the spot area or matrix compounds. By application to tissue homogenates spiked with drug compounds, we can demonstrate that it is possible to significantly improve the repeatability of the technique by incorporating a liquid chromatography separation step. Liquid chromatography is a technique for separating compounds prior to mass spectrometry (LC-MS) which enables separation of isomeric compounds that cannot be discriminated using mass spectrometry alone, as well as reducing matrix interferences. Conventionally, LC-MS is carried out on bulk or homogenised samples, which means analysis is essentially an average of the sample and does not take into account discrete areas. This work opens a new opportunity for spatially resolved liquid chromatography mass spectrometry with precision better than 20%.

Published
2019

11. Paper spray screening and liquid chromatography/mass spectrometry confirmation for medication adherence testing: A two‐step process

Author

Cecile Frampas, Katherine Longman, Melanie J. Bailey, Mahado Ismail, Vladimir Palitsin, Patrick Sears, Ramin Nilforooshan, and Catia Costa

Subjects
Analyte, Chromatography, Chemistry, Sample (material), 010401 analytical chemistry, Organic Chemistry, Two step, Special Issue Research Articles, Medication adherence, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Liquid chromatography–mass spectrometry, Fingerprint, Sample preparation, Special Issue Research Article, Spectroscopy
Abstract

RATIONALE: Paper spray offers a rapid screening test without the need for sample preparation. The incomplete extraction of paper spray allows for further testing using more robust, selective and sensitive techniques such as liquid chromatography mass spectrometry (LC-MS). Here we develop a two-step process of paper spray followed by LC-MS to (1) rapidly screen a large number of samples and (2) confirm any disputed results. This demonstrates the applicability for testing medication adherence from a fingerprint. METHODS: Following paper spray analysis, drugs of abuse samples were analysed using LC-MS. All analyses were completed using a Q Exactive™ Plus Orbitrap™ mass spectrometer. This two-step procedure was applied to fingerprints collected from patients on a maintained dose of the antipsychotic drug quetiapine. RESULTS: The extraction efficiency of paper spray for two drugs of abuse and metabolites was found to be between 15-35% (analyte dependent). For short acquisition times, the extraction efficiency was found to vary between replicates by less than 30%, enabling subsequent analysis by LC-MS. This two-step process was then applied to fingerprints collected from two patients taking the antipsychotic drug quetiapine, which demonstrates how a negative screening result from paper spray can be resolved using LC-MS. CONCLUSIONS: We have shown for the first time the sequential analysis of the same sample using paper spray and LC-MS, as well as the detection of an antipsychotic drug from a fingerprint. We propose that this workflow may also be applied to any type of sample compatible with paper spray, and will be especially convenient where only one sample is available for analysis.

Published
2019

12. Exploring a route to a selective and sensitive portable system for explosive detection– swab spray ionisation coupled to of high-field assisted waveform ion mobility spectrometry (FAIMS)

Author

H. Cooper, Josephine Bunch, E.M. van Es, Catia Costa, Patrick Sears, Melanie J. Bailey, and Vladimir Palitsin

Subjects
Materials science, Explosive material, Mass spectrometry, business.industry, Ion-mobility spectrometry, Swab spray, FAIMS, Pathology and Forensic Medicine, Ionization, lcsh:Criminal law and procedure, Optoelectronics, Explosive detection, Waveform, Explosives, Interdisciplinary Forensics, High field, lcsh:K5000-5582, business, Law, Enhanced selectivity
Abstract

Paper spray mass spectrometry is a rapid and sensitive tool for explosives detection but has so far only been demonstrated using high resolution mass spectrometry, which bears too high a cost for many practical applications. Here we explore the potential for paper spray to be implemented in field applications with portable mass spectrometry. This involved (a) replacing the paper substrate with a swabbing material (which we call “swab spray”) for compatibility with standard collection materials; (b) collection of explosives from surfaces; (c) an exploration of interferences within a ± 0.5 m/z window; and (d) demonstration of the use of high-field assisted waveform ion mobility spectrometer (FAIMS) for enhanced selectivity. We show that paper and Nomex® are viable collection materials, with Nomex providing cleaner spectra and therefore greater potential for integration with portable mass spectrometers. We show that sensitive detection using swab spray will require a mass spectrometer with a mass resolving power of 4000 or more. We show that by coupling the swab spray ionisation source with FAIMS, it is possible to reduce background interferences, thereby facilitating the use of a low resolving power (e.g. quadrupole) mass spectrometer. Keywords: Explosives, Swab spray, Mass spectrometry, FAIMS

Published
2019

13. A comparison of the performance of calorimeters

Author

Anthony E. Beezer, Patrick Sears, C. V. Skaria, Michael A.A. O’Neill, and Simon Gaisford

Subjects
Standard enthalpy of reaction, Reaction rate constant, Chemistry, Instrumentation, Enthalpy, Calibration, Range (statistics), Thermodynamics, Calorimetry, Physical and Theoretical Chemistry, Condensed Matter Physics, Calorimeter
Abstract

Isothermal calorimetry is finding extensive application in a number of research areas. This popularity is reflected in the number of commercially available instruments which are capable of yielding a variety of thermodynamic and kinetic parameters. Whilst there has been much discussion of ways in which to validate any values returned from these instruments very little has been done quantitatively to compare the relative performances of different instruments. This paper highlights the use of a test and reference reaction quantitatively to compare the performance of three instruments (Thermometric TAM, THT µRC and a Setaram HSDSC III); the specifications of these instruments provide a range from high-sensitivity, long equilibration time to lower-sensitivity, short equilibration time. The comparison is made through a statistical analysis of values returned for the rate constant, enthalpy of reaction and activation energy for the base catalysed hydrolysis of methyl paraben. The statistical analysis from the data set discussed here indicates that there is no significant difference between the returned thermodynamic and kinetic parameters from the TAM and µRC. The analysis revealed however that the HSDSC returns values for the rate constant which are significantly different from both the TAM and µRC, although it is noted that this instrument was not specifically designed to operate in a step-isothermal mode and that it was possible to apply a correction to the data. In all cases the enthalpy data returned from all instruments were statistically similar although the µRC and HSDSC returned values which were, for the rate constant and activation energy, less precise than those obtained from the TAM. As well as highlighting the importance of using test and reference reactions, this study also shows that proper instrument selection is an important factor when designing a calorimetric experimental series.

Published
2006

14. Performance validation of step-isothermal calorimeters

Author

Benjamin Arthur Llewellyn Finnin, Jonnathan Hadgraft, Simon Gaisford, Michael A. A. O'Neill, Anthony E. Beezer, and Patrick Sears

Subjects
Scientific instrument, Hazard (logic), business.industry, Chemistry, Firmware, Joule effect, Calorimetry, Condensed Matter Physics, computer.software_genre, Calorimeter, Upgrade, Forensic engineering, Calibration, Physical and Theoretical Chemistry, Process engineering, business, computer
Abstract

Isothermal calorimetry is becoming indispensable as a tool for the study of a wide variety of systems. As with all scientific instruments it is essential that robust calibration routines be developed in order to validate the data obtained. Chemical test reactions offer many advantages over (the traditionally used) joule effect heating methods, not least because they have the potential to validate instrument performance (i.e. they can be used to assess all aspects of calorimeter operation). In this work the results of a validation exercise, conducted by Thermal Hazard Technology as part of an installation routine, using the base catalysed hydrolysis of methyl paraben are discussed. In the case described, a systematic misreporting of the reported temperature of a calorimeter was identified, caused by an upgrade to the calorimeter's firmware, a discrepancy which may not have been noted using traditional electrical calibration methods and one which highlights the importance of both manufacturers and end-users adopting chemical test reactions into their test and validation routines.

Published
2006

15. [Untitled]

Author

Peter B. Wells, Darren F. Lee, Steve D. Pollington, Tina Overton, Patrick Sears, and Adam F. Lee

Subjects
inorganic chemicals, Inorganic chemistry, technology, industry, and agriculture, chemistry.chemical_element, General Chemistry, Uranium, complex mixtures, Catalysis, chemistry.chemical_compound, chemistry, Uranium oxide, Partial oxidation, Organometallic chemistry
Abstract

The partial oxidation of isobutene has been studied over titania-supported uranium oxide catalysts which exhibit a strong synergy between UOx and support phases.

Published
2000

16. Kinetic Investigations of Product Inhibition in the Amino Alcohol-Catalyzed Asymmetric Alkylation of Benzaldehyde with Diethylzinc

Author

Thorsten Rosner, William A. Nugent, Patrick Sears, and Donna G. Blackmond

Subjects
Organic Chemistry, Alkylation, Diethylzinc, Biochemistry, Combinatorial chemistry, Catalysis, Benzaldehyde, chemistry.chemical_compound, Reaction calorimeter, chemistry, Product inhibition, Reagent, Alkoxide, Organic chemistry, Physical and Theoretical Chemistry
Abstract

In situ reaction rate measurements help to define the role of product inhibition in the asymmetric alkylation of benzaldehyde with diethylzinc using (-)-MIB as a chiral reagent. Reaction calorimetry and kinetic modeling demonstrated that the rate behavior over consecutive reactions may only be rationalized when reversible binding of the product alkoxide is taken into consideration. These results may have implications for the conversion dependence of product enantioselctivity in reactions using enantioimpure catalysts.

Published
2000

17. Hill, Jane H. (b. 1939)

Author

Patrick Sears and Simon Gaisford

Subjects
Prehistory, Nahuatl, Linguistic anthropology, History, Anthropology, Obsolescence, media_common.quotation_subject, Language contact, language, Racism, language.human_language, media_common
Abstract

Jane Hassler Hill was born in Berkeley, California on October 27, 1939. After studying linguistic anthropology at Reed College and UC Berkeley, Hill completed her doctorate at UCLA under William Bright and Harry Hoijer. Hill is best known for her cutting-edge research in linguistic anthropology, encompassing everything from language contact and prehistory, to worldview, racism, and language obsolescence. Hill is also a respected descriptive linguist, who has written extensively on the Uto-Aztecan family.

Published
2006

18. Novel supported uranium oxide catalysts for NOx abatement

Author

Darren F. Lee, Steve D. Pollington, Peter B. Wells, Tina Overton, Sarah E. Hawley, Patrick Sears, Ian D. Hudson, Adam F. Lee, and Victoria Ruddock

Subjects
In situ, Chemistry, Inorganic chemistry, Metals and Alloys, Selective catalytic reduction, General Chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Active phase, Materials Chemistry, Ceramics and Composites, Uranium oxide, Selectivity, NOx, Nuclear chemistry
Abstract

The catalytic reduction of NO has been studied over novel supported uranium oxide catalysts which exhibit comparable activity and selectivity to that of conventional supported Pt catalysts and for which in situ XRD identifies the active phase to be UOx (2 < x < 2.25).

Published
1999

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