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125 results on '"Nicklin C"'

1. Spin splitting and strain in epitaxial monolayer WSe$_2$ on graphene

Author

Nakamura, H., Mohammed, A., Rosenzweig, P., Matsuda, K., Nowakowski, K., Küster, K., Wochner, P., Ibrahimkutty, S., Wedig, U., Hussain, H., Rawle, J., Nicklin, C., Stuhlhofer, B., Cristiani, G., Logvenov, G., Takagi, H., and Starke, U.

Subjects
Condensed Matter - Materials Science
Abstract

We present the electronic and structural properties of monolayer WSe$_{2}$ grown by pulsed-laser deposition on monolayer graphene (MLG) on SiC. The spin splitting in the WSe$_{2}$ valence band at $\overline{\mathrm{K}}$ was $\Delta_\mathrm{SO}=0.469\pm0.008$ eV by angle-resolved photoemission spectroscopy (ARPES). Synchrotron-based grazing-incidence in-plane X-ray diffraction (XRD) revealed the in-plane lattice constant of monolayer WSe$_{2}$ to be $a_\mathrm{WSe_2}=3.2757\pm0.0008 \mathrm{\r{A}}$. This indicates a lattice compression of -0.19 % from bulk WSe$_{2}$. By using experimentally determined graphene lattice constant ($a_\mathrm{MLG}=2.4575\pm0.0007 \mathrm{\r{A}}$), we found that a 3$\times$3 unit cell of the slightly compressed WSe$_{2}$ is perfectly commensurate with a 4$\times$4 graphene lattice with a mismatch below 0.03 %, which could explain why the monolayer WSe$_{2}$ is compressed on MLG. From XRD and first-principles calculations, however, we conclude that the observed size of strain is negligibly small to account for a discrepancy in $\Delta_\mathrm{SO}$ found between exfoliated and epitaxial monolayers in earlier ARPES. In addition, angle-resolved, ultraviolet and X-ray photoelectron spectroscopy shed light on the band alignment between WSe$_{2}$ and MLG/SiC and indicate electron transfer from graphene to the WSe$_{2}$ monolayer. As further revealed by atomic force microscopy, the WSe$_{2}$ island size depends on the number of carbon layers on top of the SiC substrate. This suggests that the epitaxy of WSe$_{2}$ favors the weak van der Waals interactions with graphene while it is perturbed by the influence of the SiC substrate and its carbon buffer layer.

Published
2019
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2. The Role of Crystal Orientation in the Dissolution of UO$_2$ Thin Films

Author

Rennie, S., Bright, E. Lawrence, Sutcliffe, J. E., Darnbrough, J. E., Rawle, J., Nicklin, C., Lander, G. H., and Springell, R.

Subjects
Condensed Matter - Materials Science
Abstract

Epitaxial thin films have been utilised to investigate the radiolytic dissolution of uranium dioxide interfaces. Thin films of UO$_2$ deposited on single crystal yttria stabilised zirconia substrates have been exposed to water in the presence of a high flux, monochromatic, synchrotron x-ray source. In particular, this technique was applied to induce dissolution of three UO$_2$ thin films, grown along the principle UO$_2$ crystallographic orientations: (001), (110) and (111). Dissolution of each film was induced for 9 accumulative corrosion periods, totalling 270s, after which XRR spectra were recorded to observe the change in morphology of the films as a function of exposure time. While the (001) and (110) oriented films were found to corrode almost linearly and at comparable rates, the (111) film was found to be significantly more corrosion resistant, with no loss of UO$_2$ material being observed after the initial 90s corrosion period. These results distinctly show the effect of crystallographic orientation on the rate of x-ray induced UO$_2$ dissolution. This result may have important consequences for theoretical dissolution models, as it is evident that orientation dependence must be taken into consideration to obtain accurate predictions of the dissolution behaviour of UO$_2$., Comment: 9 pages, 7 figures

Published
2018

3. Geometry of α‑Cr2O3(0001) as a Function of H2O Partial Pressure

Author

Ahmed, MHM, Torrelles, X, Treacy, JPW, Hussain, H, Nicklin, C, Wincott, PL, Vaughan, DJ, Thornton, G, and Lindsay, R

Subjects
Chemical Sciences, Physical Chemistry, Engineering, Technology, Chemical sciences
Abstract

Surface X-ray diffraction has been employed to elucidate the surface structure of α-Cr2O3(0001) as a function of water partial pressure at room temperature. In ultra high vacuum, following exposure to ∼2000 Langmuir of H2O, the surface is found to be terminated by a partially occupied double layer of chromium atoms. No evidence of adsorbed OH/H2O is found, which is likely due to either adsorption at minority sites, or X-ray induced desorption. At a water partial pressure of ∼30 mbar, a single OH/H2O species is found to be bound atop each surface Cr atom. This adsorption geometry does not agree with that predicted by ab initio calculations, which may be a result of some differences between the experimental conditions and those modeled.

Published
2015

10. Spin splitting and strain in epitaxial monolayer WSe2 on graphene

Author

Nakamura, H., primary, Mohammed, A., additional, Rosenzweig, Ph., additional, Matsuda, K., additional, Nowakowski, K., additional, Küster, K., additional, Wochner, P., additional, Ibrahimkutty, S., additional, Wedig, U., additional, Hussain, H., additional, Rawle, J., additional, Nicklin, C., additional, Stuhlhofer, B., additional, Cristiani, G., additional, Logvenov, G., additional, Takagi, H., additional, and Starke, U., additional

Published
2020
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11. Water-Induced Reversal of the TiO2(011)-(2 × 1) Surface Reconstruction: Observed with in Situ Surface X‑ray Diffraction

Author

Hussain, Hadeel, Ahmed, Mahmoud H. M., Torrelles, Xavier, Grinter, David C., Cabailh, Gregory, Bikondoa, Oier, Nicklin, C., Aschauer, Ulrich, Robert Lindsay, Robert, Thornton, Geoff, Hussain, Hadeel, Ahmed, Mahmoud H. M., Torrelles, Xavier, Grinter, David C., Cabailh, Gregory, Bikondoa, Oier, Nicklin, C., Aschauer, Ulrich, Robert Lindsay, Robert, and Thornton, Geoff

Abstract

The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. Here, the structure of the interface formed between this substrate and water is revealed using surface X-ray diffraction. While the TiO2(011) surface exhibits a (2 × 1) reconstruction in ultra-high vacuum (UHV), this is lifted in the presence of a multilayer of water at room temperature. This change is driven by the formation of Ti–OH at the interface, which has a bond distance of 1.93 ± 0.02 Å. The experimental solution is in good agreement with density functional theory and first-principles molecular dynamics calculations. These results point to the important differences that can arise between the structure of oxide surfaces in UHV and technical environments and will ultimately lead to an atomistic understanding of the photocatalytic process of water splitting on TiO2 surfaces.

Published
2019

12. Structure of a Superhydrophilic Surface: Wet Chemically Prepared Rutile-TiO2(110)(1 × 1)

Author

Treacy, J. P. W., Hussain, H., Torrelles, Xavier, Cabailh, Gregory, Bikondoa, Oier, Nicklin, C., Thornton, Geoff, Lindsay, Robert, Treacy, J. P. W., Hussain, H., Torrelles, Xavier, Cabailh, Gregory, Bikondoa, Oier, Nicklin, C., Thornton, Geoff, and Lindsay, Robert

Abstract

Surface X-ray diffraction has been employed to quantitatively determine the geometric structure of an X-ray-induced superhydrophilic rutile-TiO2(110)(1 × 1) surface. A scatterer, assumed to be oxygen, is found at a distance of 1.90 ± 0.02 Å above the five-fold-coordinated surface Ti atom, indicating surface hydroxylation. Two more oxygen atoms, situated further from the substrate, are also included to achieve the optimal agreement between experimental and simulated diffraction data. It is concluded that these latter scatterers are from water molecules, surface-localized through hydrogen bonding. Comparing this interfacial structure with previous studies suggests that the superhydophilicity of titania is most likely to be a result of the depletion of surface carbon contamination coupled to extensive surface hydroxylation.

Published
2019

15. Reversible restructuring of supported Au nanoparticles during butadiene hydrogenation revealed by operando GISAXS/GIWAXS

Author

Martin, D.J., Decarolis, D., Odarchenko, Y.I., Herbert, J.J., Arnold, T., Rawle, J., Nicklin, C., Boyen, H.G., Beale, A.M., and Catalyst Characterisation (HIMS, FNWI)

Abstract

Periodically arranged, monodisperse gold nanoparticles supported on flat silicon substrates were studied for the hydrogenation of 1,3-butadiene under operando conditions using Grazing Incidence Small- and Wide-Angle X-ray Scattering (GISAXS/GIWAXS). It was found that the composition and shape of the nanoparticles depends very much on the chemical environment; the particles are shown to be dynamic, undergoing reversible size and shape change particularly during catalytic reaction, highlighting a dynamism often not observed in traditional studies. Specifically, the size of the Au nanoparticles increases during butadiene hydrogenation and this is attributed to the partial removal of a Au2O3 at the metal–oxide interface and consequential shape change of the nanoparticle from a more hemispherical particle to a particle with a larger height to width ratio.

Published
2017

18. Erratum to: Fe Oxides on Ag Surfaces: Structure and Reactivity

Author

Shipilin, M., primary, Lundgren, E., additional, Gustafson, J., additional, Zhang, C., additional, Bertram, F., additional, Nicklin, C., additional, Heard, C. J., additional, Grönbeck, H., additional, Zhang, F., additional, Choi, J., additional, Mehar, V., additional, Weaver, J. F., additional, and Merte, L. R., additional

Published
2017
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19. In SituObservations of the Growth Mode of Vacuum-Deposited α-Sexithiophene

Author

Derrien, T. L., Lauritzen, A. E., Kaienburg, P., Hardigree, J. F. M., Nicklin, C., and Riede, M.

Abstract

The real-time morphological evolution of vacuum-deposited α-sexithiophene (α-6T) on a weakly interacting (glass) substrate at ambient temperature is reported. In situgrazing-incidence small-angle X-ray scattering (GISAXS) enabled the observation of nanoscale aggregates, while in situgrazing-incidence wide-angle scattering (GIWAXS) allowed the study of the molecular-scale morphology. The in situGISAXS measurements revealed that the α-6T growth proceeds via a Stranski–Krastanov mode, whereby 2–4 complete monolayers are deposited, followed by subsequent layers formed via island growth. In situGIWAXS also showed the evolution of the polymorph composition during the thin-film growth. Initially, the disordered β-phase and the low-temperature (LT)-phase are deposited in nearly equal proportion until a thickness of 8 nm, whereby the LT-phase begins to dominate until a final α-6T thickness of 50 nm where the scattering intensity of the LT-phase is more than double that of the β-phase. The change in the polymorph composition coincided with an increase in the LT-phase d-spacing, indicating a lattice strain relief as the thin film moves from surface to bulk-mediated growth. The GISAXS findings were confirmed through direct imaging using ex situatomic force microscopy (AFM) at various thicknesses, revealing the existence of both initial the initial and intermediate monolayers and final island morphologies. The findings reveal the real-time morphological evolution of α-6T across both the molecular scale and the nanoscale and highlight the role of strain in polymorph growth. Due to the importance of the thin-film microstructure in device performance, it is expected that these results will aid in the development of structure–property relationships necessary to realize the full potential of organic electronics.

Published
2020
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21. Fe Oxides on Ag Surfaces: Structure and Reactivity

Author

Shipilin, M., primary, Lundgren, E., additional, Gustafson, J., additional, Zhang, C., additional, Bertram, F., additional, Nicklin, C., additional, Heard, C. J., additional, Grönbeck, H., additional, Zhang, F., additional, Choi, J., additional, Mehar, V., additional, Weaver, J. F., additional, and Merte, L. R., additional

Published
2016
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23. ABRF Core Administrators Network Survey: Developing a Database of Core Administrators

Author

Hockberger, P., Turpen, P., Nicklin, C., Tabarini, D., Grills, G., Jonscher, K., and Meyn, Susan

Subjects
Scientific Poster Abstracts
Abstract

The CAN-CC was established by the ABRF in 2010 to facilitate greater interaction among core scientists and administrators and with the goal of creating a set of references, procedures and best practices for institutions engaged in core facility management and oversight. In particular, we seek to develop a database of core administrators, identify and describe core management model systems, and identify, collect and describe tools for core administration. Here we summarize results from our first survey, representing responses of 172 individuals from 79 institutions. The data highlights the demographics of core facility management/administration; issues of interest to individuals involved in the various areas of core management, scientific oversight and/or administration; and identification of the overall factors and characteristics common to most cores.

Published
2012

24. Climate Change in the High Andes:implications and adaptation strategies for small-scale farmers

Author

Perez, C., Nicklin, C., Dangles, O., Vanek, S., Sherwood, S.G., Halloy, S., Garrett, K.A., and Forbes, G.A.

Subjects
Communicatiewetenschap, Life Science, Communication Science, WASS
Abstract

Global climate change represents a major threat to sustainable farming in the Andes. Farmers have used local ecological knowledge and intricate production systems to cope, adapt and reorganize to meet climate uncertainty and risk, which have always been a fact of life. Those traditional systems are generally highly resilient, but the predicted effects, rates and variability of climate change may push them beyond their range of adaptability. This article examines the extent of actual and potential impacts of climate variability and change on small-scale farmers in the highland Andes of Bolivia, Ecuador and Peru. It describes how climate change impacts agriculture through deglaciation, changes in hydrology, soil and pest and disease populations. The article highlights some promising adaptive strategies currently in use by or possible for producers, rural communities and local institutions to mitigate climate change effects while preserving the livelihoods and environmental and social sustainability of the region

Published
2010

25. In-situ observation of stacking fault evolution in vacuum-deposited C60.

Author

Hardigree, J. F. M., Ramirez, I. R., Mazzotta, G., Nicklin, C., and Riede, M.

Subjects
ORGANIC semiconductor thin films, STACKING faults (Crystals), GRAZING incidence, X-ray scattering, MONOMOLECULAR films
Abstract

We report an in-situ study of stacking fault evolution in C60 thin films using grazing-incidence x-ray scattering. A Williamson-Hall analysis of the main scattering features during growth of a 15nm film on glass indicates lattice strain as high as 6% in the first 5 nm of the film, with a decrease to 2% beyond 8 nm thickness. Deformation stacking faults along the {220} plane are found to occur with 68% probability and closely linked to the formation of a nanocrystalline powder-like film. Our findings, which capture monolayer-resolution growth, are consistent with previous work on crystalline and powder C60 films, and provide a crystallographic context for the real-time study of organic semiconductor thin films. [ABSTRACT FROM AUTHOR]

Published
2017
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32. Epitaxial growth of Cr on Ag(001)

Author

Steadman, P., primary, Norris, C., additional, Nicklin, C. L., additional, Jones, N., additional, Taylor, J. S. G., additional, de Vries, S. A., additional, and Bennett, S. L., additional

Published
2001
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36. Relaxation ofTiO2(110)-(1×1) Using Surface X-Ray Diffraction

Author

Charlton, G., primary, Howes, P. B., additional, Nicklin, C. L., additional, Steadman, P., additional, Taylor, J. S. G., additional, Muryn, C. A., additional, Harte, S. P., additional, Mercer, J., additional, McGrath, R., additional, Norman, D., additional, Turner, T. S., additional, and Thornton, G., additional

Published
1997
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39. Geometry of α-Cr2O3(0001) as a Function of H2O Partial Pressure

Author

Ahmed, M. H. M., Torrelles, X., Treacy, J.P.W., Hussain, H., Nicklin, C., Wincott, P. L., Vaughan, D. J., Thornton, G., and Lindsay, R.

Abstract

Surface X-ray diffraction has been employed to elucidate the surface structure of α-Cr2O3(0001) as a function of water partial pressure at room temperature. In ultra high vacuum, following exposure to ∼2000 Langmuir of H2O, the surface is found to be terminated by a partially occupied double layer of chromium atoms. No evidence of adsorbed OH/H2O is found, which is likely due to either adsorption at minority sites, or X-ray induced desorption. At a water partial pressure of ∼30 mbar, a single OH/H2O species is found to be bound atop each surface Cr atom. This adsorption geometry does not agree with that predicted by ab initiocalculations, which may be a result of some differences between the experimental conditions and those modeled.

Published
2015
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43. The Atomic Structure of the Si(111)-Pb Buried Interface Grown on the Reconstruction.

Author

Howes, P. B., Edwards, K. A., Macdonald, J. E., Hibma, T., Bootsman, T., James, M. A., and Nicklin, C. L.

Abstract

The Si(111)-Pb interface is a prototypical metal-semiconductor interface and has been the subject of a number of experimental studies. The Schottky barrier height is known to depend on the initial reconstruction formed by the first monolayer of Pb atoms and we have previously shown that there are structural differences between the buried interfaces. We present surface X-ray diffraction measurements of the interface grown from the incommensurate reconstruction and show that, in contrast to the starting surface, the interface comprises the junction between unreconstructed, bulk-like Si(111) and disordered, bulk-like Pb(111). This interface is contrasted with the interface formed by growth on the Si(111)-(7 × 7)-Pb reconstruction at which the starting reconstruction is preserved. [ABSTRACT FROM AUTHOR]

Published
1998
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44. Development of Highly Efficient Resolutions of Racemic Tramadol Using Mandelic Acid

Author

Evans, G. R., Fernandez, P. D., Henshilwood, J. A., Lloyd, S., and Nicklin, C.

Abstract

Two methods for the resolution of tramadol are described. One uses the active pharmaceutical ingredient (API), tramadol hydrochloride as input material. The other utilises the crude free base obtained from the Grignard reaction on tramadol Mannich base. Both resolutions use mandelic acid; the cost and process implications of each approach are discussed.

Published
2002
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