Your search keyword '"Mackenzie SR"' showing total 81 results

1. The impact of optical excitation on the binding in complexes of the cationic gold dimer: Au2+N2 and Au2+N2O

Author

Förstel, M, Nahvi, N-N, Pollow, K, Green, A, and Mackenzie, SR

Abstract

The vibrationally resolved Ã2Σ+ ← X2Σ+ transitions of Au+2N2 and Au+2N2O are reported together with a detailed characterization of important geometric and electronic properties, enabling a deep understanding of the bonding mechanism at the molecular level. Comparison with time-dependent density functional theory calculations reveals that the ligand stabilizes the Au+2 entity in the X2Σ+ state by donating electron density into the half-filled bonding orbital leading to the strengthening of the Au-Au, N-N and N-O bonds. This effect is reversed in the Ã2Σ+ state, where the Au-Au bonding orbital is already filled and the ligand destabilizes the Au-Au bond by donating into the antibonding orbitals of Au+2. The spectral detail obtained provides a deep understanding of the interplay of multiple electronic states in gas-phase metal-complex cations, opening the door for a systematic approach in the study of excited state reactivity in organometallic chemistry.

Published

2022

2. Coulomb-explosion imaging of concurrent photodissociation dynamics

Author

Burt, M, Boll, R, Lee, JWL, Amini, K, Köckert, H, Vallance, C, Gentleman, AS, Mackenzie, SR, Bari, S, Bomme, C, Düsterer, S, Erk, B, Manschwetus, B, Müller, E, Rompotis, D, Savelyev, E, Schirmel, N, Techert, S, Treusch, R, Küpper, J, Trippel, S, Wiese, J, Stapelfeldt, H, de Miranda, BC, Guillemin, R, Ismail, I, Journel, L, Marchenko, T, Palaudoux, J, Penent, F, Piancastelli, MN, Simon, M, Travnikova, O, Brausse, F, Goldsztejn, G, Rouzée, A, Géléoc, M, Geneaux, R, Ruchon, T, Underwood, J, Holland, DMP, Mereshchenko, AS, Olshin, PK, Johnsson, P, Maclot, S, Lahl, J, Rudenko, A, Ziaee, F, Brouard, M, and Rolles, D

Abstract

The dynamics following laser-induced molecular photodissociation of gas-phase CH2BrI at 271.6 nm were investigated by time-resolved Coulomb-explosion imaging using intense near-IR femtosecond laser pulses. The observed delay-dependent photofragment momenta reveal that CH2BrI undergoes C-I cleavage, depositing 65.6% of the available energy into internal product states, and that absorption of a second UV photon breaks the C-Br bond of CH2Br. Simulations confirm that this mechanism is consistent with previous data recorded at 248 nm, demonstrating the sensitivity of Coulomb-explosion imaging as a real-time probe of chemical dynamics.

Published

2017

3. High resolution photoionisation spectroscopy of vibrationally excited Ar center dot NO

Author

Monti, OLA, Cruse, HA, Softley, TP, and Mackenzie, SR

Abstract

Mass-analysed threshold ionisation (MATI) spectra of the Ar·NO complex have been obtained for the first time. These spectra have been used to determine unambiguously the nature of three bands detected by resonance-enhanced multiphoton ionisation (REMPI) spectroscopy via the à state of Ar·NO. The features are shown to originate from vibrationally excited states of Ar·NO in its electronic ground state. The assignment is in agreement with recent theoretical calculations. © 2001 Elsevier Science B.V.

Published

2016

4. A theoretical treatment of the Ã2∑+ state of the Ar-HS/Ar-SH van der Waals complex (Physical Chemistry Chemical Physics (2004) 6, (5463-5468) DOI: 10.1039/b411989d)

Author

Hirst, DM, Doyle, RJ, and Mackenzie, SR

Published

2016

5. Program offers stormwater computer design tools

Author

Guo, James C.Y., Urbonas, Ben, MacKenzie, Sr., Ken, and Lloyd, Dave

Subjects

Environmental associations -- Contracts, Storm water retention basins -- Management, Company business management, Contract agreement, Business, Engineering and manufacturing industries, Environmental services industry, Business, international, University of Colorado -- Contracts -- Management

Abstract

Starting in 1985, the Urban Drainage and Flood Control District (UDFCD) in Denver, CO, contracted the University of Colorado at Denver/HSC (CU-Denver) to develop a set of computing tools for [...]

Published

2007

6. Condensed-phase applications of cavity-based spectroscopic techniques

Author

Neil, SRT and Mackenzie, SR

Subjects

Biophysical chemistry, Laser Spectroscopy, Physical Sciences, Photochemistry and reaction dynamics, Physical & theoretical chemistry

Abstract

This thesis describes the development and application of condensed-phase cavity-based spectroscopic techniques—namely cavity ring-down spectroscopy (CRDS); cavity enhanced absorption spectroscopy (CEAS); broadband cavity enhanced absorption spectroscopy (BBCEAS) and evanescent wave (EW) variants of all three. The recently-developed cavity technique of EW-broadband cavity enhanced absorption spectroscopy (EW-BBCEAS) has been used—in combination with a supercontinuum source (SC) and a sensitive, fast readout CCD detector—to record of the full visible spectrum (400–700 nm) of a silica-liquid interfacial layer (with an effective thickness ca. 1 µm), at rapid acquisition rates (> 600 Hz) that are sufficient to follow fast kinetics in the condensed phase, in real time. The sensitivity achieved (Amin= 3.9 x 10-5) is comparable with previous EW-CRDS and EW-CEAS studies, but the spectral region accessed in this broadband variant is much larger. The study of liquid|air interfaces using EW cavity-based techniques is also illustrated for the first time. The first application of BBCEAS to the analysis of microfluidic samples, flowing through a microfluidic chip, is illustrated. Proof-of-principle experiments are presented, demonstrating the technique’s ability to provide full visible broadband spectral measurements of flowing microfluidic droplets, with both high detection sensitivity (αmin < 10-2 cm-1) and excellent spatial and temporal resolution: an SC light source and sensitive, fast readout CCD allowed measurement repetition rates of 273 Hz, whilst probing a very small sample volume (ca. 90 nL). A significant portion of this thesis is devoted to demonstrating the powerful capabilities of CEAS, CRDS and BBCEAS in monitoring radical recombination reactions and associated magnetic field effects (MFEs) in solution. The efficacy of CEAS as a high-sensitivity MFE detection method has been established in a proof-of-principle study, using narrow band CEAS in combination with phase-sensitive detection: MFE-induced absorbance changes of ca. 10-6 could be detected using the modulated CEAS technique and the data are shown to be superior to those obtained using conventional transient absorption (TA) methods typically employed for MFE measurements. The powerful capabilities of CRDS in monitoring radical recombination reactions and associated MFEs are also demonstrated. In particular, a pump-probe CRDS variant allows not only high sensitivity (Amin on the order 10-6), but also sub-microsecond time-resolution. Combined, these features represent significant advantages over TA. Finally, SC-BBCEAS is used to measure full visible spectra of photoinduced reactions and their MFEs. The applicability of this approach to in vitro MFE studies of Drosophila cryptochrome is demonstrated—the results mark the first in vitro observation of a magnetic field response in an animal cryptochrome, a key result supporting the hypothesis that cryptochromes are involved in the magnetic sense in animals.

Published

2016

7. Scattering of larger molecules - part 2: general discussion.

Author

Aoiz FJ, Balucani N, Bergeat A, Butler A, Chandler DW, Czakó G, Győri T, Heard DE, Heathcote D, Heazlewood BR, Hertl N, Jambrina PG, Kaiser RI, Krohn OA, Le Duc V, Loreau J, Mackenzie SR, McKendrick KG, Meyer J, Nathanson GM, Neumark DM, Pandey R, Reilly C, Robertson P, Schatz GC, Sibener SJ, Suits AG, Watson PD, Wester R, Willitsch S, Wodtke AM, and Zhao BS

Published

2024

8. Scattering of larger molecules - part 1: general discussion.

Author

Babikov D, Balucani N, Bergeat A, Brouard M, Chandler DW, Costen ML, Fárník M, Guo H, Győri T, Heard D, Heathcote D, Hertl N, Jambrina PG, Kidwell NM, Krohn OA, Le Duc V, Loreau J, Mackenzie SR, McCrea M, McKendrick KG, Meyer J, Moon DR, Mullin AS, Nathanson GS, Neumark DM, Ni KK, Paterson MJ, Pluhařová E, Robertson P, Reilly C, Schatz GC, Sparling C, Suits AG, Watson PD, Wester R, Willitsch S, and Wodtke AM

Published

2024

9. Scattering at condensed-phase surfaces: general discussion.

Author

Auerbach DJ, Babikov D, Butler A, Chandler DW, Fingerhut J, Guo H, Harding DJ, Heathcote D, Hertl N, Jiang B, Kroes GJ, Lane PD, Loreau J, Mackenzie SR, McKendrick KG, Moon DR, Nathanson GM, Neumark DM, Pandey R, Schatz GC, Sibener SJ, Srivastav A, Vallance C, van Bree RAB, Wagner J, Walker GC, Watson PD, Willitsch S, Wodtke AM, and Zhao BS

Published

2024

10. Infrared spectra and fragmentation dynamics of isotopologue-selective mixed-ligand complexes.

Author

Watson PD, Meizyte G, Pearcy PAJ, Brewer EI, Green AE, Robertson C, Paterson MJ, and Mackenzie SR

Abstract

Isolated mixed-ligand complexes provide tractable model systems in which to study competitive and cooperative binding effects as well as controlled energy flow. Here, we report spectroscopic and isotopologue-selective infrared photofragmentation dynamics of mixed gas-phase Au( 12/13 CO) n (N 2 O) m + complexes. The rich infrared action spectra, which are reproduced well using simulations of calculated lowest energy structures, clarify previous ambiguities in the assignment of vibrational bands, especially accidental coincidence of CO and N 2 O bands. The fragmentation dynamics exhibit the same unexpected behaviour as reported previously in which, once CO loss channels are energetically accessible, these dominate the fragmentation branching ratios, despite the much lower binding energy of N 2 O. We have investigated the dynamics computationally by considering anharmonic couplings between a relevant subset of normal modes involving both ligand stretch and intermolecular modes. Discrepancies between correlated and uncorrelated model fit to the ab initio potential energy curves are quantified using a Boltzmann sampled root mean squared deviation providing insight into efficiency of vibrational energy transfer between high frequency ligand stretches and the softer intermolecular modes which break during fragmentation.

Published

2024

11. A Combined Infrared and Computational Study of Gas-Phase Mixed-Ligand Rhodium Complexes: Rh(CO) n (N 2 O) m + ( n = 1-5, m = 1-4).

Author

Meizyte G, Brown RH, Brewer EI, Watson PD, and Mackenzie SR

Abstract

In this study, mixed carbonyl and nitrous oxide complexes with Rh + were studied by mass-selective infrared photodissociation spectroscopy in a molecular beam. The infrared spectra, recorded in the region of the CO and N 2 O N═N stretches, were assigned and interpreted with the aid of simulated spectra of low-energy structural isomers. Clear evidence of an inner coordination shell of four ligands is observed. The observed vibrational structure can be understood on the basis of local mode vibrations in the two ligands. However, there is also evidence of multiple low-lying isomers and cooperative binding effects between the two ligands. In particular, σ donation from directly coordinated nitrous oxide ligands drives more classical carbonyl bonding than has been observed in pure carbonyl complexes. The observed fragmentation branching ratios following resonant infrared absorption are explained by simple statistical and energetic arguments, providing a contrast with those of equivalent Au + complexes.

Published

2023

12. Singlet-triplet dephasing in radical pairs in avian cryptochromes leads to time-dependent magnetic field effects.

Author

Golesworthy MJ, Zollitsch T, Luo J, Selby D, Jarocha LE, Henbest KB, Paré-Labrosse O, Bartölke R, Schmidt J, Xu J, Mouritsen H, Hore PJ, Timmel CR, and Mackenzie SR

Subjects

Animals, Magnetic Fields, Animal Migration, Chickens physiology, Cryptochromes chemistry, Cryptochromes physiology, Avian Proteins

Abstract

Cryptochrome 4a (Cry4a) has been proposed as the sensor at the heart of the magnetic compass in migratory songbirds. Blue-light excitation of this protein produces magnetically sensitive flavin-tryptophan radical pairs whose properties suggest that Cry4a could indeed be suitable as a magnetoreceptor. Here, we use cavity ring-down spectroscopy to measure magnetic field effects on the kinetics of these radical pairs in modified Cry4a proteins from the migratory European robin and from nonmigratory pigeon and chicken. B1/2, a parameter that characterizes the magnetic field-dependence of the reactions, was found to be larger than expected on the basis of hyperfine interactions and to increase with the delay between pump and probe laser pulses. Semiclassical spin dynamics simulations show that this behavior is consistent with a singlet-triplet dephasing (STD) relaxation mechanism. Analysis of the experimental data gives dephasing rate constants, rSTD, in the range 3-6 × 107 s-1. A simple "toy" model due to Maeda, Miura, and Arai [Mol. Phys. 104, 1779-1788 (2006)] is used to shed light on the origin of the time-dependence and the nature of the STD mechanism. Under the conditions of the experiments, STD results in an exponential approach to spin equilibrium at a rate considerably slower than rSTD. We attribute the loss of singlet-triplet coherence to electron hopping between the second and third tryptophans of the electron transfer chain and comment on whether this process could explain differences in the magnetic sensitivity of robin, chicken, and pigeon Cry4a's., (© 2023 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).)

Published

2023

13. An Infrared Study of Gas-Phase Metal Nitrosyl Ion-Molecule Complexes.

Author

Meizyte G, Pearcy PAJ, Watson PD, Brewer EI, Green AE, Doll M, Duda OA, and Mackenzie SR

Abstract

We present a combined experimental and quantum chemical study of gas-phase group 9 metal nitrosyl complexes, M(NO) n + (M = Co, Rh, Ir). Experimental infrared photodissociation spectra of mass-selected ion-molecule complexes are presented in the region 1600 cm -1 to 2000 cm -1 which includes the NO stretch. These are interpreted by comparison with the simulated spectra of energetically low-lying structures calculated using density functional theory. A mix of linear and nonlinear ligand binding is observed, often within the same complex, and clear evidence of coordination shell closing is observed at n = 4 for Co(NO) n + and Ir(NO) n + . Calculations of Rh(NO) n + complexes suggest additional low-lying five-coordinate structures. In all cases, once a second coordination shell is occupied, new spectral features appear which are assigned to (NO) 2 dimer moieties. Further evidence of such motifs comes from differences in the spectra recorded in the dissociation channels corresponding to single and double ligand loss.

Published

2022

14. An infrared study of CO 2 activation by holmium ions, Ho + and HoO .

Author

Brewer EI, Green AE, Gentleman AS, Beardsmore PW, Pearcy PAJ, Meizyte G, Pickering J, and Mackenzie SR

Abstract

We report a combined experimental and computational study of carbon dioxide activation at gas-phase Ho + and HoO + centres. Infrared action spectra of Ho(CO 2 ) n + and [HoO(CO 2 ) n ] + ion-molecule complexes have been recorded in the spectral region 1700-2400 cm -1 and assigned by comparison with simulated spectra of energetically low-lying structures determined by density functional theory. Little by way of activation is observed in Ho(CO 2 ) n + complexes with CO 2 binding end-on to the Ho + ion. By contrast, all [HoO(CO 2 ) n ] + complexes n ≥ 3 show unambiguous evidence for formation of a carbonate radical anion moiety, . The signature of this structure, a new vibrational band observed around 1840 cm -1 for n = 3, continues to red-shift monotonically with each successive CO 2 ligand binding with net charge transfer from the ligand rather than the metal centre.

Published

2022

15. Spectroscopy and Infrared Photofragmentation Dynamics of Mixed Ligand Ion-Molecule Complexes: Au(CO) x (N 2 O) y .

Author

Green AE, Brown RH, Meizyte G, and Mackenzie SR

Abstract

We report a combined experimental and computational study of the structure and fragmentation dynamics of mixed ligand gas-phase ion-molecule complexes. Specifically, we have studied the infrared spectroscopy and vibrationally induced photofragmentation dynamics of mass-selected Au(CO) x (N 2 O) y + complexes. The structures can be understood on the basis of local CO and N 2 O chromophores in different solvation shells with CO found preferentially in the core. Rich fragmentation dynamics are observed as a function of complex composition and the vibrational mode excited. The dynamics are characterized in terms of branching ratios for different ligand loss channels in light of calculated internal energy distributions. Intramolecular vibrational redistribution appears to be rapid, and dissociation is observed into all energetically accessible channels with little or no evidence for preferential breaking of the weakest intermolecular interactions.

Published

2021

16. Atomic Cluster Au&#95;{10}^{+} Is a Strong Broadband Midinfrared Chromophore.

Author

Green AE, Gentleman AS, Schöllkopf W, Fielicke A, and Mackenzie SR

Abstract

We report an intense broadband midinfrared absorption band in the Au&#95;{10}^{+} cluster in a region in which only molecular vibrations would normally be expected. Observed in the infrared multiple photon dissociation spectra of Au&#95;{10}Ar^{+}, Au&#95;{10}(N&#95;{2}O)^{+}, and Au&#95;{10}(OCS)^{+}, the smooth feature stretches 700-3400  cm^{-1} (λ=14-2.9  μm). Calculations confirm unusually low-energy allowed electronic excitations consistent with the observed spectra. In Au&#95;{10}(OCS)^{+}, IR absorption throughout the band drives OCS decomposition resulting in CO loss, providing an alternative method of bond activation or breaking.

Published

2021

17. Magnetic sensitivity of cryptochrome 4 from a migratory songbird.

Author

Xu J, Jarocha LE, Zollitsch T, Konowalczyk M, Henbest KB, Richert S, Golesworthy MJ, Schmidt J, Déjean V, Sowood DJC, Bassetto M, Luo J, Walton JR, Fleming J, Wei Y, Pitcher TL, Moise G, Herrmann M, Yin H, Wu H, Bartölke R, Käsehagen SJ, Horst S, Dautaj G, Murton PDF, Gehrckens AS, Chelliah Y, Takahashi JS, Koch KW, Weber S, Solov'yov IA, Xie C, Mackenzie SR, Timmel CR, Mouritsen H, and Hore PJ

Subjects

Animals, Avian Proteins genetics, Chickens, Columbidae, Retina, Animal Migration, Cryptochromes genetics, Magnetic Fields, Songbirds

Abstract

Night-migratory songbirds are remarkably proficient navigators 1 . Flying alone and often over great distances, they use various directional cues including, crucially, a light-dependent magnetic compass 2,3 . The mechanism of this compass has been suggested to rely on the quantum spin dynamics of photoinduced radical pairs in cryptochrome flavoproteins located in the retinas of the birds 4-7 . Here we show that the photochemistry of cryptochrome 4 (CRY4) from the night-migratory European robin (Erithacus rubecula) is magnetically sensitive in vitro, and more so than CRY4 from two non-migratory bird species, chicken (Gallus gallus) and pigeon (Columba livia). Site-specific mutations of ErCRY4 reveal the roles of four successive flavin-tryptophan radical pairs in generating magnetic field effects and in stabilizing potential signalling states in a way that could enable sensing and signalling functions to be independently optimized in night-migratory birds.

Published

2021

18. Infrared action spectroscopy of nitrous oxide on cationic gold and cobalt clusters.

Author

Cunningham EM, Green AE, Meizyte G, Gentleman AS, Beardsmore PW, Schaller S, Pollow KM, Saroukh K, Förstel M, Dopfer O, Schöllkopf W, Fielicke A, and Mackenzie SR

Abstract

Understanding the catalytic decomposition of nitrous oxide on finely divided transition metals is an important environmental issue. In this study, we present the results of a combined infrared action spectroscopy and quantum chemical investigation of molecular N2O binding to isolated Aun+ (n ≤ 7) and Con+ (n ≤ 5) clusters. Infrared multiple-photon dissociation spectra have been recorded in the regions of both the N[double bond, length as m-dash]O (1000-1400 cm-1) and N[double bond, length as m-dash]N (2100-2450 cm-1) stretching modes of nitrous oxide. In the case of Aun+ clusters only the ground electronic state plays a role, while the involvement of energetically low-lying excited states in binding to the Con+ clusters cannot be ruled out. There is a clear preference for N-binding to clusters of both metals but some O-bound isomers are observed in the case of smaller Con(N2O)+ clusters.

Published

2021

19. Free electron laser infrared action spectroscopy of nitrous oxide binding to platinum clusters, Pt n (N 2 O) .

Author

Meizyte G, Green AE, Gentleman AS, Schaller S, Schöllkopf W, Fielicke A, and Mackenzie SR

Abstract

Infrared multiple-photon dissociation spectroscopy has been applied to study Pt n (N 2 O) + (n = 1-8) clusters which represent entrance-channel complexes on the reactive potential energy surface for nitrous oxide decomposition on platinum. Comparison of spectra recorded in the spectral region 950 cm -1 to 2400 cm -1 with those simulated for energetically low-lying structures from density functional theory shows a clear preference for molecular binding via the terminal N atom, though evidence of O-binding is observed for some cluster sizes. Enhanced reactivity of Pt n + n≥ 6 clusters towards N 2 O is reflected in the calculated reactive potential energy surfaces and, uniquely in the size range studied, Pt 6 (N 2 O) + proved impossible to form in significant number density even with cryogenic cooling of the cluster source. Infrared-driven N 2 O decomposition, resulting in the formation of cluster oxides, Pt n O + , is observed following vibrational excitation of several Pt n (N 2 O) + complexes.

Published

2020

20. Detection of magnetic field effects by confocal microscopy.

Author

Déjean V, Konowalczyk M, Gravell J, Golesworthy MJ, Gunn C, Pompe N, Foster Vander Elst O, Tan KJ, Oxborrow M, Aarts DGAL, Mackenzie SR, and Timmel CR

Abstract

Certain pairs of paramagnetic species generated under conservation of total spin angular momentum are known to undergo magnetosensitive processes. Two prominent examples of systems exhibiting these so-called magnetic field effects (MFEs) are photogenerated radical pairs created from either singlet or triplet molecular precursors, and pairs of triplet states generated by singlet fission. Here, we showcase confocal microscopy as a powerful technique for the investigation of such phenomena. We first characterise the instrument by studying the field-sensitive chemistry of two systems in solution: radical pairs formed in a cryptochrome protein and the flavin mononucleotide/hen egg-white lysozyme model system. We then extend these studies to single crystals. Firstly, we report temporally and spatially resolved MFEs in flavin-doped lysozyme single crystals. Anisotropic magnetic field effects are then reported in tetracene single crystals. Finally, we discuss the future applications of confocal microscopy for the study of magnetosensitive processes with a particular focus on the cryptochrome-based chemical compass believed to lie at the heart of animal magnetoreception., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

21. Infrared Study of OCS Binding and Size-Selective Reactivity with Gold Clusters, Au n + ( n = 1-10).

Author

Green AE, Schaller S, Meizyte G, Rhodes BJ, Kealy SP, Gentleman AS, Schöllkopf W, Fielicke A, and Mackenzie SR

Abstract

OCS binding to and reactivity with isolated gold cluster cations, Au n + ( n = 1-10), has been studied by infrared multiple photon dissociation (IR-MPD) spectroscopy in conjunction with quantum chemical calculations. The distribution of complexes Au n S x (OCS) m + formed reflects the relative reactivity of different cluster sizes with OCS, under the multiple collision conditions of our ablation source. The IR-MPD spectra of Au n (OCS) + ( n = 3-10) clusters are interpreted in terms of either μ 1 or μ 2 S binding motifs. Analysis of the fragmentation products following infrared excitation of parent Au n (OCS) + clusters reveals strongly size-selective (odd-even) branching ratios for OCS and CO loss, respectively. CO loss signifies infrared-driven OCS decomposition on the cluster surface and is observed to occur predominantly on even n clusters (i.e., those with odd electron counts). The experimental data, including fragmentation branching ratios, are consistent with calculated potential energy landscapes, in which the initial species trapped are molecularly bound entrance channel complexes, rather than global minimum inserted structures. Attempts to generate Rh n (OCS) + and Pt n (OCS) + equivalents failed; only sulfide reaction products were observed in the mass spectrum, even after cooling the cluster source to -100 °C.

Published

2020

22. Chemical compass behaviour at microtesla magnetic fields strengthens the radical pair hypothesis of avian magnetoreception.

Author

Kerpal C, Richert S, Storey JG, Pillai S, Liddell PA, Gust D, Mackenzie SR, Hore PJ, and Timmel CR

Subjects

Animals, Carotenoids radiation effects, Chemistry, Physical, Fullerenes radiation effects, Lasers, Solid-State, Photochemistry, Porphyrins radiation effects, Spectrum Analysis, Animal Migration, Birds, Cryptochromes, Magnetic Fields, Orientation, Spatial

Abstract

The fact that many animals, including migratory birds, use the Earth's magnetic field for orientation and compass-navigation is fascinating and puzzling in equal measure. The physical origin of these phenomena has not yet been fully understood, but arguably the most likely hypothesis is based on the radical pair mechanism (RPM). Whilst the theoretical framework of the RPM is well-established, most experimental investigations have been conducted at fields several orders of magnitude stronger than the Earth's. Here we use transient absorption spectroscopy to demonstrate a pronounced orientation-dependence of the magnetic field response of a molecular triad system in the field region relevant to avian magnetoreception. The chemical compass response exhibits the properties of an inclination compass as found in migratory birds. The results underline the feasibility of a radical pair based avian compass and also provide further guidelines for the design and operation of exploitable chemical compass systems.

Published

2019

23. Photodissociation dynamics and the dissociation energy of vanadium monoxide, VO, investigated using velocity map imaging.

Author

Gentleman AS, Iskra A, Köckert H, and Mackenzie SR

Abstract

Velocity map imaging has been employed to study multi-photon fragmentation of vanadium monoxide (VO) via the C 4Σ- state. The fragmentation dynamics are interpreted in terms of dissociation at the three-photon level, with the first photon weakly resonant with transitions to vibrational energy levels of the C 4Σ- state. The dissociation channels accessed are shown to depend strongly on the vibrational level via which excitation takes place. Analysis of the evolution of the kinetic energy release spectrum with photon energy leads to a refined value for the dissociation energy of ground state VO of D0(VO) = 53 126 ± 263 cm-1.

Published

2019

24. Structural isomers and low-lying electronic states of gas-phase M + (N 2 O) n (M = Co, Rh, Ir) ion-molecule complexes.

Author

Cunningham EM, Gentleman AS, Beardsmore PW, and Mackenzie SR

Abstract

The structures of gas-phase group nine cation-nitrous oxide metal-ligand complexes, M + (N 2 O) n (M = Co, Rh, Ir; n = 2-7) have been determined by a combination of infrared photodissociation spectroscopy and density functional theory. The infrared spectra were recorded in the region of the N 2 O asymmetric (N[double bond, length as m-dash]N) stretch using the inert messenger technique and show spectroscopically distinct features for N- and O-bound isomers. The evolution of the spectra with increasing ligand number is qualitatively different for each of the metal ions studied here with only Co + (N 2 O) n complexes behaving similarly to the coinage metal complexes studied previously. The rich variety of electronic and isomeric structures identified make these species attractive targets for infrared-driven, isomer selective intra-complex chemistry.

Published

2019

25. Coulomb explosion imaging of CH 3 I and CH 2 ClI photodissociation dynamics.

Author

Allum F, Burt M, Amini K, Boll R, Köckert H, Olshin PK, Bari S, Bomme C, Brauße F, Cunha de Miranda B, Düsterer S, Erk B, Géléoc M, Geneaux R, Gentleman AS, Goldsztejn G, Guillemin R, Holland DMP, Ismail I, Johnsson P, Journel L, Küpper J, Lahl J, Lee JWL, Maclot S, Mackenzie SR, Manschwetus B, Mereshchenko AS, Mason R, Palaudoux J, Piancastelli MN, Penent F, Rompotis D, Rouzée A, Ruchon T, Rudenko A, Savelyev E, Simon M, Schirmel N, Stapelfeldt H, Techert S, Travnikova O, Trippel S, Underwood JG, Vallance C, Wiese J, Ziaee F, Brouard M, Marchenko T, and Rolles D

Abstract

The photodissociation dynamics of CH 3 I and CH 2 ClI at 272 nm were investigated by time-resolved Coulomb explosion imaging, with an intense non-resonant 815 nm probe pulse. Fragment ion momenta over a wide m / z range were recorded simultaneously by coupling a velocity map imaging spectrometer with a pixel imaging mass spectrometry camera. For both molecules, delay-dependent pump-probe features were assigned to ultraviolet-induced carbon-iodine bond cleavage followed by Coulomb explosion. Multi-mass imaging also allowed the sequential cleavage of both carbon-halogen bonds in CH 2 ClI to be investigated. Furthermore, delay-dependent relative fragment momenta of a pair of ions were directly determined using recoil-frame covariance analysis. These results are complementary to conventional velocity map imaging experiments and demonstrate the application of time-resolved Coulomb explosion imaging to photoinduced real-time molecular motion.

Published

2018

26. IR Signature of Size-Selective CO 2 Activation on Small Platinum Cluster Anions, Pt n - (n=4-7).

Author

Green AE, Justen J, Schöllkopf W, Gentleman AS, Fielicke A, and Mackenzie SR

Abstract

Infrared multiple photon dissociation spectroscopy (IR-MPD) has been employed to determine the nature of CO 2 binding to size-selected platinum cluster anions, Pt n - (n=4-7). Interpreted in conjunction with density functional theory simulations, the results illustrate that the degree of CO 2 activation can be controlled by the size of the metal cluster, with dissociative activation observed on all clusters n≥5. Of potential practical significance, in terms of the use of CO 2 as a useful C1 feedstock, CO 2 is observed molecularly-bound, but highly activated, on the Pt 4 - cluster. It is trapped behind a barrier on the reactive potential energy surface which prevents dissociation., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

27. Magnetically Sensitive Radical Photochemistry of Non-natural Flavoproteins.

Author

Zollitsch TM, Jarocha LE, Bialas C, Henbest KB, Kodali G, Dutton PL, Moser CC, Timmel CR, Hore PJ, and Mackenzie SR

Subjects

Animals, Avian Proteins chemistry, Cryptochromes chemistry, Electron Transport, Free Radicals chemistry, Light, Magnetic Fields, Models, Molecular, Photochemical Processes, Protein Conformation, alpha-Helical, Avian Proteins metabolism, Birds metabolism, Cryptochromes metabolism, Free Radicals metabolism

Abstract

It is a remarkable fact that ∼50 μT magnetic fields can alter the rates and yields of certain free-radical reactions and that such effects might be the basis of the light-dependent ability of migratory birds to sense the direction of the Earth's magnetic field. The most likely sensory molecule at the heart of this chemical compass is cryptochrome, a flavin-containing protein that undergoes intramolecular, blue-light-induced electron transfer to produce magnetically sensitive radical pairs. To learn more about the factors that control the magnetic sensitivity of cryptochromes, we have used a set of de novo designed protein maquettes that self-assemble as four-α-helical proteins incorporating a single tryptophan residue as an electron donor placed approximately 0.6, 1.1, or 1.7 nm away from a covalently attached riboflavin as chromophore and electron acceptor. Using a specifically developed form of cavity ring-down spectroscopy, we have characterized the photochemistry of these designed flavoprotein maquettes to determine the identities and kinetics of the transient radicals responsible for the magnetic field effects. Given the gross structural and dynamic differences from the natural proteins, it is remarkable that the maquettes show magnetic field effects that are so similar to those observed for cryptochromes.

Published

2018

28. Infrared Spectroscopy of Au + (CH 4 ) n Complexes and Vibrationally-Enhanced C-H Activation Reactions.

Author

Gentleman AS, Green AE, Price DR, Cunningham EM, Iskra A, and Mackenzie SR

Abstract

A combined spectroscopic and computational study of gas-phase Au + (CH 4 ) n ( n  = 3-8) complexes reveals a strongly-bound linear Au + (CH 4 ) 2 core structure to which up to four additional ligands bind in a secondary coordination shell. Infrared resonance-enhanced photodissociation spectroscopy in the region of the CH 4 a 1 and t 2 fundamental transitions reveals essentially free internal rotation of the core ligands about the H 4 C-Au + -CH 4 axis, with sharp spectral features assigned by comparison with spectral simulations based on density functional theory. In separate experiments, vibrationally-enhanced dehydrogenation is observed when the t 2 vibrational normal mode in methane is excited prior to complexation. Clear infrared-induced enhancement is observed in the mass spectrum for peaks corresponding 4u below the mass of the Au + (CH 4 ) n =2,3 complexes corresponding, presumably, to the loss of two H 2 molecules.

Published

2018

29. Infrared Signature of Structural Isomers of Gas-Phase M + (N 2 O) n (M = Cu, Ag, Au) Ion-Molecule Complexes.

Author

Cunningham EM, Gentleman AS, Beardsmore PW, Iskra A, and Mackenzie SR

Abstract

Gas-phase metal ion-ligand complexes offer model environments to study molecular interactions that are key to many catalytic processes. Here, we present a combined experimental and computational study of M + (N 2 O) n [M = Cu, Ag, Au; n = 2-7] complexes. The spectra provide clear evidence for both nitrogen- and oxygen-bound ligands giving rise to a wide range of structural isomers for each complex studied. The evolution of the complex structures observed as well as spectral trends for each metal center are interpreted in terms of a molecular orbital binding picture and resulting calculated ligand binding energies. Given the environmental importance of nitrogen oxides, these results have implications for metal-catalyzed removal of nitrous oxide and, particularly, the prospect of initiating infrared-driven isomer-selective chemistry in size-selected complexes.

Published

2017

30. Photofragmentation dynamics and dissociation energies of MoO and CrO.

Author

Cooper GA, Gentleman AS, Iskra A, and Mackenzie SR

Abstract

Neutral metal-containing molecules and clusters present a particular challenge to velocity map imaging techniques. Common methods of choice for producing such species-such as laser ablation or magnetron sputtering-typically generate a wide variety of metal-containing species and, without the possibility of mass-selection, even determining the identity of the dissociating moiety can be challenging. In recent years, we have developed a velocity map imaging spectrometer equipped with a laser ablation source explicitly for studying neutral metal-containing species. Here, we report the results of velocity map imaging photofragmentation studies of MoO and CrO. In both cases, dissociation at the two- and three-photon level leads to fragmentation into a range of product channels, some of which can be confidently assigned to particular Mo* (Cr*) and O atom quantum states. Analysis of the kinetic energy release spectra as a function of photon energy allows precise determination of the ground state dissociation energies of MoO (=44 064 ± 133 cm -1 ) and CrO (=37 197 ± 78 cm -1 ), respectively.

Published

2017

31. Millitesla magnetic field effects on the photocycle of an animal cryptochrome.

Author

Sheppard DM, Li J, Henbest KB, Neil SR, Maeda K, Storey J, Schleicher E, Biskup T, Rodriguez R, Weber S, Hore PJ, Timmel CR, and Mackenzie SR

Subjects

Absorption, Radiation, Animals, Spectrum Analysis, Cryptochromes metabolism, Drosophila Proteins metabolism, Drosophila melanogaster metabolism, Eye Proteins metabolism, Magnetic Fields, Photoperiod

Abstract

Drosophila have been used as model organisms to explore both the biophysical mechanisms of animal magnetoreception and the possibility that weak, low-frequency anthropogenic electromagnetic fields may have biological consequences. In both cases, the presumed receptor is cryptochrome, a protein thought to be responsible for magnetic compass sensing in migratory birds and a variety of magnetic behavioural responses in insects. Here, we demonstrate that photo-induced electron transfer reactions in Drosophila melanogaster cryptochrome are indeed influenced by magnetic fields of a few millitesla. The form of the protein containing flavin and tryptophan radicals shows kinetics that differ markedly from those of closely related members of the cryptochrome-photolyase family. These differences and the magnetic sensitivity of Drosophila cryptochrome are interpreted in terms of the radical pair mechanism and a photocycle involving the recently discovered fourth tryptophan electron donor., Competing Interests: The authors declare no competing financial interests.

Published

2017

32. Infrared Spectroscopy of Gas-Phase M + (CO 2 ) n (M = Co, Rh, Ir) Ion-Molecule Complexes.

Author

Iskra A, Gentleman AS, Kartouzian A, Kent MJ, Sharp AP, and Mackenzie SR

Abstract

The structures of gas-phase M + (CO 2 ) n (M = Co, Rh, Ir; n = 2-15) ion-molecule complexes have been investigated using a combination of infrared resonance-enhanced photodissociation (IR-REPD) spectroscopy and density functional theory. The results provide insight into fundamental metal ion-CO 2 interactions, highlighting the trends with increasing ligand number and with different group 9 ions. Spectra have been recorded in the region of the CO 2 asymmetric stretch around 2350 cm -1 using the inert messenger technique and their interpretation has been aided by comparison with simulated infrared spectra of calculated low-energy isomeric structures. All vibrational bands in the smaller complexes are blue-shifted relative to the asymmetric stretch in free CO 2 , consistent with direct binding to the metal center dominated by charge-quadrupole interactions. For all three metal ions, a core [M + (CO 2 ) 2 ] structure is identified to which subsequent ligands are less strongly bound. No evidence is observed in this size regime for complete activation or insertion reactions.

Published

2017

33. Engineering an Artificial Flavoprotein Magnetosensor.

Author

Bialas C, Jarocha LE, Henbest KB, Zollitsch TM, Kodali G, Timmel CR, Mackenzie SR, Dutton PL, Moser CC, and Hore PJ

Subjects

Flavoproteins chemistry, Protein Conformation, alpha-Helical, Flavoproteins genetics, Flavoproteins metabolism, Magnetic Fields, Protein Engineering

Abstract

Migratory birds use the Earth's magnetic field as a source of navigational information. This light-dependent magnetic compass is thought to be mediated by cryptochrome proteins in the retina. Upon light activation, electron transfer between the flavin adenine dinucleotide cofactor and tryptophan residues leads to the formation of a spin-correlated radical pair, whose subsequent fate is sensitive to external magnetic fields. To learn more about the functional requirements of this complex chemical compass, we have created a family of simplified, adaptable proteins-maquettes-that contain a single tryptophan residue at different distances from a covalently bound flavin. Despite the complete absence of structural resemblance to the native cryptochrome fold or sequence, the maquettes exhibit a strong magnetic field effect that rivals those observed in the natural proteins in vitro. These novel maquette designs offer unprecedented flexibility to explore the basic requirements for magnetic sensing in a protein environment.

Published

2016

34. Auditory Brainstem Implantation in Neurofibromatosis Type 2: Experience From the Manchester Programme.

Author

Ramsden RT, Freeman SR, Lloyd SK, King AT, Shi X, Ward CL, Huson SM, Mawman DJ, O'Driscoll MP, Evans DG, and Rutherford SA

Subjects

Adult, Auditory Brain Stem Implants, Auditory Perception, Deafness etiology, Female, Humans, Male, Neurofibromatosis 2 surgery, Neuroma, Acoustic surgery, Retrospective Studies, Treatment Outcome, Auditory Brain Stem Implantation, Deafness surgery, Neurofibromatosis 2 complications, Neuroma, Acoustic complications

Abstract

Objective: To describe the experience of auditory brainstem implantation (ABI) in patients with Neurofibromatosis type 2 (NF2)., Study Design: Retrospective case review., Setting: Tertiary referral centre., Patients: Implanted with a Cochlear ABI22 or ABI24M between 1994 and 2009 because of NF2 disease., Intervention(s): Rehabilitative., Main Outcome Measure(s): Surgical complication rate; audiological outcomes., Results: There were 50 primary ABI insertions in 49 patients, including 16 inserted at the time of first side tumor removal as a sleeper, and two revision repositionings which failed to improve outcome. Postoperatively three patients had cerebrospinal fluid leaks which did not require reoperation, one patient had meningitis, and eleven patients suffered either temporary or permanent lower cranial nerve dysfunction. Twenty-nine patients became full time users; a further 12 patients became non-users. Three patients died while their device was inactive. Five patients retain serviceable contralateral hearing. Audiological open set testing of users showed means of: environmental sounds discrimination 51%; phoneme discrimination: with ABI alone 22%/lip reading (LR) 45%/ABI with LR 65%; sentence testing: with ABI alone 13%/LR 19%/ABI with LR 54%., Conclusions: The majority of patients with NF2 implanted with an ABI find the device a useful aid to communication in conjunction with LR and in recognizing common environmental sounds. A small proportion gain open set discrimination. Almost a third of patients may end up as non-users. There is probably an increased risk of postoperative lower cranial nerve dysfunction so careful preoperative assessment is advised.

Published

2016

35. Sub-millitesla magnetic field effects on the recombination reaction of flavin and ascorbic acid radicals.

Author

Evans EW, Kattnig DR, Henbest KB, Hore PJ, Mackenzie SR, and Timmel CR

Subjects

Electron Spin Resonance Spectroscopy, Electrons, Energy Transfer, Hydrogen-Ion Concentration, Models, Chemical, Molecular Dynamics Simulation, Temperature, Ascorbic Acid chemistry, Flavins chemistry, Magnetic Fields, Photochemical Processes

Abstract

Even though the interaction of a <1 mT magnetic field with an electron spin is less than a millionth of the thermal energy at room temperature (kBT), it still can have a profound effect on the quantum yields of radical pair reactions. We present a study of the effects of sub-millitesla magnetic fields on the photoreaction of flavin mononucleotide with ascorbic acid. Direct control of the reaction pathway is achieved by varying the rate of electron transfer from ascorbic acid to the photo-excited flavin. At pH 7.0, we verify the theoretical prediction that, apart from a sign change, the form of the magnetic field effect is independent of the initial spin configuration of the radical pair. The data agree well with model calculations based on a Green's function approach that allows multinuclear spin systems to be treated including the diffusive motion of the radicals, their spin-selective recombination reactions, and the effects of the inter-radical exchange interaction. The protonation states of the radicals are uniquely determined from the form of the magnetic field-dependence. At pH 3.0, the effects of two chemically distinct radical pair complexes combine to produce a pronounced response to ∼500 μT magnetic fields. These findings are relevant to the magnetic responses of cryptochromes (flavin-containing proteins proposed as magnetoreceptors in birds) and may aid the evaluation of effects of weak magnetic fields on other biologically relevant electron transfer processes.

Published

2016

36. Chemical amplification of magnetic field effects relevant to avian magnetoreception.

Author

Kattnig DR, Evans EW, Déjean V, Dodson CA, Wallace MI, Mackenzie SR, Timmel CR, and Hore PJ

Subjects

Animals, Ascorbic Acid chemistry, Flavins chemistry, Light, Muramidase chemistry, Tryptophan chemistry, Cryptochromes chemistry, Magnetic Fields, Sensory Receptor Cells physiology

Abstract

Magnetic fields as weak as the Earth's can change the yields of radical pair reactions even though the energies involved are orders of magnitude smaller than the thermal energy, kBT, at room temperature. Proposed as the source of the light-dependent magnetic compass in migratory birds, the radical pair mechanism is thought to operate in cryptochrome flavoproteins in the retina. Here we demonstrate that the primary magnetic field effect on flavin photoreactions can be amplified chemically by slow radical termination reactions under conditions of continuous photoexcitation. The nature and origin of the amplification are revealed by studies of the intermolecular flavin-tryptophan and flavin-ascorbic acid photocycles and the closely related intramolecular flavin-tryptophan radical pair in cryptochrome. Amplification factors of up to 5.6 were observed for magnetic fields weaker than 1 mT. Substantial chemical amplification could have a significant impact on the viability of a cryptochrome-based magnetic compass sensor.

Published

2016

37. Dissociation energies of Ag-RG (RG = Ar, Kr, Xe) and AgO molecules from velocity map imaging studies.

Author

Cooper GA, Kartouzian A, Gentleman AS, Iskra A, van Wijk R, and Mackenzie SR

Abstract

The near ultraviolet photodissociation dynamics of silver atom-rare gas dimers have been studied by velocity map imaging. Ag-RG (RG = Ar, Kr, Xe) species generated by laser ablation are excited in the region of the C ((2)Σ(+))←X ((2)Σ(+)) continuum leading to direct, near-threshold dissociation generating Ag* ((2)P3/2) + RG ((1)S0) products. Images recorded at excitation wavelengths throughout the C ((2)Σ(+))←X ((2)Σ(+)) continuum, coupled with known atomic energy levels, permit determination of the ground X ((2)Σ(+)) state dissociation energies of 85.9 ± 23.4 cm(-1) (Ag-Ar), 149.3 ± 22.4 cm(-1) (Ag-Kr), and 256.3 ± 16.0 cm(-1) (Ag-Xe). Three additional photolysis processes, each yielding Ag atom photoproducts, are observed in the same spectral region. Two of these are markedly enhanced in intensity upon seeding the molecular beam with nitrous oxide, and are assigned to photodissociation of AgO at the two-photon level. These features yield an improved ground state dissociation energy for AgO of 15 965 ± 81 cm(-1), which is in good agreement with high level calculations. The third process results in Ag atom fragments whose kinetic energy shows anomalously weak photon energy dependence and is assigned tentatively to dissociative ionization of the silver dimer Ag2.

Published

2015

38. Sensitive fluorescence-based detection of magnetic field effects in photoreactions of flavins.

Author

Evans EW, Li J, Storey JG, Maeda K, Henbest KB, Dodson CA, Hore PJ, Mackenzie SR, and Timmel CR

Subjects

Arabidopsis chemistry, Arabidopsis metabolism, Cryptochromes chemistry, Magnetic Fields, Spectrometry, Fluorescence, Flavins chemistry

Abstract

Magnetic field effect studies have been conducted on a variety of flavin-based radical pair systems chosen to model the magnetosensitivity of the photoinduced radical pairs found in cryptochrome flavoproteins. Cryptochromes are blue-light photoreceptor proteins which are thought to mediate avian magnetoreception, an hypothesis supported by recent in vitro observations of magnetic field-dependent reaction kinetics for a light-induced radical pair in a cryptochrome from the plant Arabidopsis thaliana. Many cryptochromes are difficult to express in large quantities or high concentrations and are easily photodegraded. Magnetic field effects are typically measured by spectroscopic detection of the transient radical (pair) concentrations. Due to its low sensitivity, single-pass transient absorption spectroscopy can be of limited use in such experiments and much recent work has involved development of other methodologies offering improved sensitivity. Here we explore the use of flavin fluorescence as the magnetosensitive probe and demonstrate the exceptional sensitivity of this technique which allows the detection of magnetic field effects in flavin samples at sub-nanomolar concentrations and in cryptochromes.

Published

2015

39. Clinical and radiological guidance in managing facial nerve schwannomas.

Author

Doshi J, Heyes R, Freeman SR, Potter GM, Ward CL, Rutherford SA, King AT, Ramsden RT, and Lloyd SK

Subjects

Adult, Aged, Aged, 80 and over, Cranial Nerve Neoplasms classification, Cranial Nerve Neoplasms therapy, Facial Nerve pathology, Facial Nerve surgery, Facial Nerve Diseases classification, Facial Nerve Diseases therapy, Female, Humans, Male, Middle Aged, Neurilemmoma classification, Neurilemmoma therapy, Retrospective Studies, Treatment Outcome, Cranial Nerve Neoplasms diagnosis, Facial Nerve Diseases diagnosis, Neurilemmoma diagnosis

Abstract

Objective: To present a review of all patients diagnosed with a facial nerve schwannoma (FNS) managed in our center over almost two decades, and suggest guidelines for their classification and management., Study Design: Retrospective case review, Setting: Tertiary referral center, Patients: Twenty-eight patients with a facial nerve schwannoma, Intervention: Conservative or surgical management depending on clinical and radiological features, Main Outcome Measure: Patient demographics, site of tumor, and clinical symptoms, including facial nerve function (House-Brackmann score) at baseline and follow-up. In those managed surgically, operative approach and surgical outcomes were also recorded., Results: Of 28 patients, 16 were male. Mean age at presentation was 46 years. The majority presented with either facial weakness or hearing loss. The internal auditory canal segment of the facial nerve was the most commonly affected (19/28, 68%). Multi-segmental lesions were found in almost half (46%) of patients. Facial weakness was most commonly associated with involvement of the labyrinthine segment (89%). Overall, 16 (57%) patients were managed surgically., Conclusion: FNS may be difficult to distinguish on both clinical and imaging grounds from other cerebellopontine pathologies on the basis of audiovestibular symptoms alone. The presence of facial weakness in combination with imaging findings suggestive of FNS is highly suggestive for FNS. In patients with brainstem compression, rapid tumor growth, or House-Brackmann greater than 4, we suggest a surgical approach based on preoperative audiovestibular status, helping optimize long-term facial function and minimize morbidity. Facial nerve reanimation at the time of primary surgery is preferred.

Published

2015

40. Subjective outcomes of auditory brainstem implantation.

Author

McSorley A, Freeman SR, Ramsden RT, Motion J, King AT, Rutherford SA, Mawman DJ, O'Driscoll MP, and Lloyd SK

Subjects

Adolescent, Adult, Aged, Auditory Brain Stem Implantation, Auditory Perception, Female, Humans, Lipreading, Male, Middle Aged, Noise, Speech Perception physiology, Surveys and Questionnaires, Young Adult, Auditory Brain Stem Implants, Treatment Outcome

Abstract

Aim: To assess the long-term subjective benefits of auditory brainstem implants (ABIs) and investigate the extent to which ABI users perceive it to be a useful device., Methods: Using the Manchester database, all 31 living patients registered as ABI users were identified and sent the ABI performance questionnaire. Data regarding daily duration of use, auditory fatigue, ability to differentiate between speech and environmental sounds, and subjective usefulness of the ABI in different listening conditions were collected. Patients were asked to rate the usefulness of the device in various settings on a scale of 1 (not useful) to 6 (very useful). The mean age at implantation was 33 years (13-73 yr), and the mean follow-up period was 6 years (1.5-15 yr)., Results: Between March 1994 and September 2009, 57 patients underwent ABI insertion. A total of 26 patients were not eligible for inclusion in the study (19 nonusers, 5 deceased, and 2 sleepers). Of the 31 eligible patients identified as ABI users, 23 returned the questionnaire, 1 was excluded as the questionnaire had been completed on his or her behalf, giving a net response rate of 71%. Mean duration of usage per day was 12.62 hours (range, 8-16 h). Seventy-one percent of the patients turned the processor off at one or more points during the day. Differentiation between speech and environment was achieved in 95%, and 70% were able to differentiate between gender and adult and pediatric voices. The ABI was perceived as most beneficial when dealing with a familiar voice in a quiet place, with a median usefulness score of 4, rising to 5 when used in conjunction with lip reading. The ABI was least useful when dealing with an unfamiliar voice in a loud place, with a mean score of 1, rising to 2 when used in conjunction with lip reading. In all environments, combining the ABI with lip reading served to increase usefulness ratings by at least 1 point., Conclusion: This study demonstrates that ABI users make use of their device for at least 12 hours per day on average and obtain considerable subjective benefit in speech discrimination when using the device with familiar speakers in a quiet environment. Benefit is less significant in noise and with an unfamiliar speaker. Lip reading enhances subjective benefit by at least 1 point, and lip reading training may have a role to play in maximizing subjective benefit.

Published

2015

41. Chemical reactivity on gas-phase metal clusters driven by blackbody infrared radiation.

Author

Parry IS, Kartouzian A, Hamilton SM, Balaj OP, Beyer MK, and Mackenzie SR

Abstract

We report the observation of chemical reactions in gas-phase Rh(n)(N2O)m(+) complexes driven by absorption of blackbody radiation. The experiments are performed under collision-free conditions in a Fourier transform ion cyclotron resonance mass spectrometer. Mid-infrared absorption by the molecularly adsorbed N2O moieties promotes a small fraction of the cluster distribution sufficiently to drive the N2O decomposition reaction, leading to the production of cluster oxides and the release of molecular nitrogen. N2O decomposition competes with molecular desorption and the branching ratios for the two processes show marked size effects, reflecting variations in the relative barriers. The rate of decay is shown to scale approximately linearly with the number of infrared chromophores. The experimental findings are interpreted in terms of calculated infrared absorption rates assuming a sudden-death limit., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

42. Outcomes of cochlear reimplantation in adults.

Author

Mahtani S, Glynn F, Mawman DJ, O'Driscoll MP, Green K, Bruce I, Freeman SR, and Lloyd SK

Subjects

Adult, Aged, Cochlear Implants, Female, Humans, Male, Meniere Disease, Middle Aged, Noise, Reoperation, Retrospective Studies, Treatment Outcome, Cochlea surgery, Cochlear Implantation methods, Equipment Failure, Hearing Loss surgery, Speech Perception

Abstract

Objective: To determine the indications for, and auditory outcomes following, cochlear reimplantation in adults and investigate factors influencing outcome., Study Design: Retrospective case series., Setting: Cochlear implant program in a tertiary care hospital., Patients: Thirty adults (32 ears) who have undergone cochlear reimplantation in the ipsilateral ear., Intervention(s): Explantation and reimplantation of cochlear implant., Main Outcome Measure(s): Speech discrimination as measured using Bamford-Kowal Bench sentence testing in quiet (BKBq) and noisy (BKBn) environments., Results: Best BKBq improved from 58.5% to 71.4% (p = 0.0242), and BKBn improved from 60.9% to 67.2% (p = 0.826) after reimplantation. Device failure was the most common indication for reimplantation. There was no significant difference in failure rate or outcome between implant manufacturers. The mean time to reimplantation was 4.7 years, and this was not related to auditory outcome. Otosclerosis and Ménière's disease may predispose to a worse auditory outcome after reimplantation., Conclusion: Cochlear reimplantation does not have a detrimental effect on auditory outcomes and in some cases results in improved speech perception.

Published

2014

43. Broadband cavity-enhanced detection of magnetic field effects in chemical models of a cryptochrome magnetoreceptor.

Author

Neil SR, Li J, Sheppard DM, Storey J, Maeda K, Henbest KB, Hore PJ, Timmel CR, and Mackenzie SR

Subjects

Animals, Flavins chemistry, Magnetic Fields, Spectrum Analysis, Cryptochromes chemistry, Models, Chemical, Receptors, Cell Surface chemistry

Abstract

Broadband cavity-enhanced absorption spectroscopy (BBCEAS) is shown to be a sensitive method for the detection of magnetic field effects (MFEs) in two flavin-based chemical reactions which are simple models for cryptochrome magnetoreceptors. The advantages of optical cavity-based detection and (pseudo-white-light) supercontinuum radiation have been combined to provide full spectral coverage across the whole of the visible spectrum (425 < λ < 700 nm). This region covers the absorbance spectra of flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD) as well as their photogenerated radicals. To illustrate the power of this technique, BBCEAS has been used to record the spectral dependence of MFEs for photoinduced radical pairs formed in the intermolecular reaction of FMN with lysozyme and the intramolecular photochemistry of FAD. These reactions have been chosen for their photochemical similarities to cryptochrome proteins which have been proposed as key to the magnetic compass sense of many animals including birds. In experiments performed using low protein concentrations (10 μM) and 1 mm optical path-lengths, absorbance changes as small as 1 × 10(-7) (representing <0.1% MFEs) have been detected with good signal-to-noise offering the prospect of sensitive MFE detection in cryptochrome.

Published

2014

44. Imaging the photodissociation dynamics of neutral metal clusters: copper dimer, Cu2, and copper oxide, CuO.

Author

Parry IS, Hermes AC, Kartouzian A, and Mackenzie SR

Abstract

The spectroscopy and UV photodissociation dynamics of Cu2 and CuO have been studied using a combination of one- and two-colour excitation and velocity map imaging. Resonant excitation of Cu2 via the J ← X (1)Σg(+) transition leads to significant fragmentation which is interpreted in terms of a combination of direct dissociation of Cu2(+ 2)Π produced in the resonant two-photon ionization process and dissociation of excited Cu2 states above the ionization threshold. By fitting of the kinetic energy release spectra obtained from the velocity map images, we determine a value for the dissociation energy of the cation of D0 (Cu2(+), X (2)Σg(+)) of 1.713 ± 0.025 eV, which, when combined with known ionization energies, yields D0 (Cu2, X (1)Σg(+)) = 1.886 ± 0.026 eV. In other experiments, resonant two colour (1 + 1') excitation of CuO via a range of excited states (C, D, F, H), yields unusually simple VMI images indicating fragmentation into a single dissociation channel which has been identified as Cu* (2)D3/2 + O* (1)D. Taken together, this data gives a CuO bond dissociation energy of 3.041 ± 0.030 eV. Finally, the production of Cu2(+) with kinetic energy = 705 ± 75 cm(-1) is tentatively interpreted as photolysis of Cu3 yielding Cu* + Cu2 X (1)Σg(+) from which a dissociation energy of Cu3 of 0.605 ± 0.030 eV is deduced.

Published

2014

45. Ipsilateral cochlear implantation after cochlear nerve preserving vestibular schwannoma surgery in patients with neurofibromatosis type 2.

Author

Lloyd SK, Glynn FJ, Rutherford SA, King AT, Mawman DJ, O'Driscoll MP, Evans DG, Ramsden RT, and Freeman SR

Subjects

Adult, Audiometry, Pure-Tone, Cochlear Implants, Cochlear Nerve physiopathology, Cochlear Nerve surgery, Female, Hearing physiology, Humans, Male, Neurofibromatosis 2 physiopathology, Retrospective Studies, Treatment Outcome, Cochlear Implantation methods, Neurofibromatosis 2 surgery, Neuroma, Acoustic surgery, Speech Perception physiology

Abstract

Objective: To investigate the outcomes from ipsilateral simultaneous or sequential cochlear implantation in patients with neurofibromatosis type 2 (NF2) after vestibular schwannoma removal with cochlear nerve preservation., Study Design: Retrospective case series., Setting: Single tertiary referral NF2 center., Patients: Six patients with NF2., Intervention: Removal of vestibular schwannoma (VS) with preservation of the cochlear nerve and cochlear implantation. Four patients had their surgery via a translabyrinthine approach. Two patients had a retrosigmoid approach. A cochlear implant was inserted at the same time as tumor removal in 4 cases and sequentially in 2 cases., Main Outcome Measures: Surgical and audiometric outcomes using Bamford-Kowal-Bench (BKB) and City of New York University (CUNY) sentence scores., Results: The average age at implantation was 24 years (range, 15-36 yr). Follow-up ranged from 5 to 93 months, with an average of 38 months. All patients had useful hearing in the contralateral ear before surgery. One patient gained no benefit from cochlear implantation and proceeded to have an auditory brainstem implant. Of those that had functional cochlear nerves, the average BKB score in quiet was 64%, BKB score in noise was 42%, and CUNY score with lipreading was 97%. Results varied within the group, but all patients gained significant benefit and continue to use their CI at least intermittantly., Conclusion: The present series demonstrates that in selected cases, cochlear implantation can be successful after a translabyrinthine approach for VS removal and for restoring hearing after failed retrosigmoid hearing preservation surgery. All patients found the cochlear implant offered useful hearing even in the presence of contralateral hearing.

Published

2014

46. Collisional activation of N2O decomposition and CO oxidation reactions on isolated rhodium clusters.

Author

Parry IS, Kartouzian A, Hamilton SM, Balaj OP, Beyer MK, and Mackenzie SR

Abstract

The reactions of nitrous oxide decorated rhodium clusters, RhnN2O(+) (n = 5, 6), have been studied by Fourier transform ion cyclotron resonance mass spectrometry. Collision induced dissociation with Ar is shown to lead to one of two processes; desorption of the intact N2O moiety (indicating molecular adsorption in the parent cluster) or N2O decomposition liberating molecular nitrogen with the latter becoming increasingly dominant at higher collision energies. Consistent with the results of earlier studies, which employed infrared excitation [Hermes, A. C.; et al. J. Phys. Chem. Lett. 2011, 2, 3053], Rh5ON2O(+) is observed to behave qualitatively differently to Rh5N2O(+) with decomposition of the nitrous oxide dominating the chemistry of the former. In other experiments, the reactivity of RhnN2O(+) clusters with CO has been studied. Chemisorption of (13)CO is calculated to deposit ca. 2 eV into the parent cluster, initiating a range of chemical processes on the cluster surface, which are fit to a simple reaction mechanism. Clear differences are again observed in the reaction branching ratios for Rh5N2O(+) and Rh6N2O(+) parent cluster ions. For the n = 5 cluster, the combined N2O reduction/CO oxidation is the most significant reaction channel, while the n = 6 cluster preferentially is oxidized to Rh6O(+) with loss of N2 and CO. Even larger differences are observed in the reactions of the N2O decorated cluster oxides, RhnON2O(+), for which more reaction possibilities arise. The results of all studies are discussed in relation to infrared driven processes on the same parent cluster species [Hamilton, S. M.; et al. J. Am. Chem. Soc. 2010, 132, 1448; J. Phys. Chem. A, 2011, 115, 2489].

Published

2013

47. Structures of platinum oxide clusters in the gas phase.

Author

Kerpal C, Harding DJ, Hermes AC, Meijer G, Mackenzie SR, and Fielicke A

Subjects

Gases chemistry, Molecular Structure, Photons, Quantum Theory, Spectrophotometry, Infrared, Oxides chemistry, Platinum chemistry

Abstract

The structures of small gas-phase Pt(n)O(2m)(+) (n = 1-6, m = 1, 2) cluster cations have been investigated in a combined infrared multiple photon dissociation (IRMPD) spectroscopy and density functional theory (DFT) study. On the basis of the infrared spectra obtained, it is concluded that in most clusters oxygen is bound dissociatively, preferring 2-fold bridge binding motifs, sometimes combined with singly coordinated terminal binding. Comparison of the oxide cluster structures with those of bare cationic platinum clusters reported previously reveals major structural changes induced in the platinum core upon oxygen binding. For some cluster sizes the presence of the Ar messenger atom(s) is found to induce a significant change in the observed cluster structure.

Published

2013

48. Evanescent wave cavity ring-down spectroscopy (EW-CRDS) as a probe of macromolecule adsorption kinetics at functionalized interfaces.

Author

O'Connell MA, de Cuendias A, Gayet F, Shirley IM, Mackenzie SR, Haddleton DM, and Unwin PR

Subjects

Adsorption, Carboxylic Acids chemistry, Cellulose chemistry, Coumarins chemistry, Hydrogen-Ion Concentration, Kinetics, Polyglutamic Acid chemistry, Silicon Dioxide chemistry, Surface Properties, Macromolecular Substances chemistry, Spectrum Analysis

Abstract

Evanescent wave cavity ring-down spectroscopy (EW-CRDS) has been employed to study the interfacial adsorption kinetics of coumarin-tagged macromolecules onto a range of functionalized planar surfaces. Such studies are valuable in designing polymers for complex systems where the degree of interaction between the polymer and surface needs to be tailored. Three tagged synthetic polymers with different functionalities are examined: poly(acrylic acid) (PAA), poly(3-sulfopropyl methacrylate, potassium salt) (PSPMA), and a mannose-modified glycopolymer. Adsorption transients at the silica/water interface are found to be characteristic for each polymer, and kinetics are deduced from the initial rates. The chemistry of the adsorption interfaces has been varied by, first, manipulation of silica surface chemistry via the bulk pH, followed by surfaces modified by poly(L-glutamic acid) (PGA) and cellulose, giving five chemically different surfaces. Complementary atomic force microscopy (AFM) imaging has been used for additional surface characterization of adsorbed layers and functionalized interfaces to allow adsorption rates to be interpreted more fully. Adsorption rates for PSPMA and the glycopolymer are seen to be highly surface sensitive, with significantly higher rates on cellulose-modified surfaces, whereas PAA shows a much smaller rate dependence on the nature of the adsorption surface.

Published

2012

49. Evanescent wave cavity ringdown spectroscopy: a platform for the study of supported lipid bilayers.

Author

Powell HV, O'Connell MA, Zhang M, Mackenzie SR, and Unwin PR

Subjects

Adsorption, Fatty Acids, Monounsaturated chemistry, Kinetics, Microscopy, Atomic Force, Porphyrins chemistry, Quartz Crystal Microbalance Techniques, Quaternary Ammonium Compounds chemistry, Silicon Dioxide chemistry, Surface Properties, Lipid Bilayers chemistry, Spectrophotometry

Abstract

Evanescent wave cavity ringdown spectroscopy (EW-CRDS) is advocated as an approach for monitoring the formation of supported lipid bilayers (SLBs) on quartz substrates in situ and for the quantitative study of fast molecular adsorption kinetics at the resulting modified biomimetic surface. This approach is illustrated using SLBs of 1,2-dioleoyl-3-trimethylammonium-propane (DOTAP). Complementary atomic force microscopy (AFM) and quartz crystal microbalance with dissipation (QCM-D) measurements confirm the formation of bilayers on quartz. The subsequent interaction of the porphyrin, 5,10,15,20-tetraphenyl-21H,23H-porphine-p,p',p'',p'''-tetrasulfonic acid tetrasodium hydrate (TPPS) with the cationic bilayer-modified silica surface has been studied using EW-CRDS combined with an impinging-jet to deliver analyte to the surface in a well-defined manner. The adsorption of TPPS to the bilayer was kinetically controlled and the adsorption rate constant was found to be 1.7 (±0.6) × 10(-4) cm s(-1) from finite element modeling of the jet hydrodynamics and associated convective-diffusion equation, coupled to a first-order surface process describing adsorption. These proof-of-concept studies provide a platform for the investigation of molecular processes at biomembranes using EW-CRDS for chemical species showing optical absorbance in the visible and ultraviolet range.

Published

2012

50. Infrared driven CO oxidation reactions on isolated platinum cluster oxides, Pt(n)O(m)+.

Author

Hermes AC, Hamilton SM, Cooper GA, Kerpal C, Harding DJ, Meijer G, Fielicke A, and Mackenzie SR

Abstract

This collaboration has recently shown that infrared excitation can drive decomposition reactions of molecules on the surface of gas-phase transition metal clusters. We describe here a significant extension of this work to the study of bimolecular reactions initiated in a similar manner. Specifically, we have observed the infrared activated CO oxidation reaction (CO(ads) + O(ads) --> CO2(g)) on isolated platinum oxide cations, Pt(n)O(m)+. Small platinum cluster oxides Pt(n)O(m)+ (n = 3-7, m = 2, 4), have been decorated with CO molecules and subjected to multiple photon infrared excitation in the range 400-2200 cm(-1) using the Free Electron Laser for Infrared eXperiments (FELIX). The Pt(n)O(m)CO+ clusters have been characterised by infrared multiple photon dissociation spectroscopy using messenger atom tagging. Evidence is observed for isomers involving both dissociatively and molecularly adsorbed oxygen on the cluster surface. Further information is obtained on the evolution of the cluster structure with number of platinum atoms and CO coverage. In separate experiments, Pt(n)O(m)CO+ clusters have been subjected to infrared heating via the CO stretch around 2100 cm(-1). On all clusters investigated, the CO oxidation reaction, indicated by CO2 loss and production of Pt(n)O(m) = 1+, is found to compete effectively with the CO desorption channel. The experimental observations are compared with the results of preliminary DFT calculations in order to identify both cluster structures and plausible mechanisms for the surface reaction.

Published

2012