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1. Quantum Interference and Contact Effects in Thermoelectric Performance of Anthracene-Based Molecules

Author

Hamill, Joseph M., Ismael, Ali, Al-Jobory, Alaa, Bennett, Troy L. R., Alshahrani, Maryam, Wang, Xintai, Akers-Douglas, Maxwell, Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., Lambert, Colin, and Albrecht, Tim

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on the single-molecule electronic and thermoelectric properties of strategically chosen anthracene-based molecules with anchor groups capable of binding to noble metal substrates, such as gold and platinum. Specifically, we study the effect of different anchor groups, as well as quantum interference, on the electric conductance and the thermopower of gold/single-molecule/gold junctions and generally find good agreement between theory and experiment. All molecular junctions display transport characteristics consistent with coherent transport and a Fermi alignment approximately in the middle of the HOMO/LUMO gap. Single-molecule results are in agreement with previously reported thin-film data, further supporting the notion that molecular design considerations may be translated from the single- to the many-molecule devices. For combinations of anchor groups where one binds significantly more strongly to the electrodes than the other, the stronger anchor group appears to dominate the thermoelectric behaviour of the molecular junction. For other combinations, the choice of electrode material can determine the sign and magnitude of the thermopower. This finding has important implications for the design of thermoelectric generator devices, where both n- and p-type conductor are required for thermoelectric current generation.

Published
2022

3. Scale-up of room-temperature constructive quantum interference from single molecules to self-assembled molecular-electronic films

Author

Wang, Xintai, Bennett, Troy L. R., Ismael, Ali, Wilkinson, Luke A., Hamill, Joseph, White, Andrew J. P., Grace, Iain M., Albrecht, Tim, Robinson, Benjamin J., Long, Nicholas J., Cohen, Lesley F., and Lambert, Colin J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

The realization of self-assembled molecular-electronic films, whose room-temperature transport properties are controlled by quantum interference (QI), is an essential step in the scale-up QI effects from single molecules to parallel arrays of molecules. Recently, the effect of destructive QI (DQI) on the electrical conductance of self-assembled monolayers (SAMs) has been investigated. Here, through a combined experimental and theoretical investigation, we demonstrate chemical control of different forms of constructive QI (CQI) in cross-plane transport through SAMs and assess its influence on cross-plane thermoelectricity in SAMs. It is known that the electrical conductance of single molecules can be controlled in a deterministic manner, by chemically varying their connectivity to external electrodes. Here, by employing synthetic methodologies to vary the connectivity of terminal anchor groups around aromatic anthracene cores, and by forming SAMs of the resulting molecules, we clearly demonstrate that this signature of CQI can be translated into SAM-on-gold molecular films. We show that the conductance of vertical molecular junctions formed from anthracene-based molecules with two different connectivities differ by a factor of approximately 16, in agreement with theoretical predictions for their conductance ratio based on constructive QI effects within the core. We also demonstrate that for molecules with thiol anchor groups, the Seebeck coefficient of such films is connectivity dependent and with an appropriate choice of connectivity can be boosted by ~50%. This demonstration of QI and its influence on thermoelectricity in SAMs represents a critical step towards functional ultra-thin-film devices for future thermoelectric and molecular-scale electronics applications.

Published
2019

8. Quantum Interference and Contact Effects in the Thermoelectric Performance of Anthracene-Based Molecules

Author

Hamill, Joseph M., primary, Ismael, Ali, additional, Al-Jobory, Alaa, additional, Bennett, Troy L. R., additional, Alshahrani, Maryam, additional, Wang, Xintai, additional, Akers-Douglas, Maxwell, additional, Wilkinson, Luke A., additional, Robinson, Benjamin J., additional, Long, Nicholas J., additional, Lambert, Colin, additional, and Albrecht, Tim, additional

Published
2023
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9. Quantum Interference and Contact Effects in the Thermoelectric Performance of Anthracene-Based Molecules

Author

Hamill, Joseph M., Ismael, Ali, Al-Jobory, Alaa, Bennett, Troy L.R., Alshahrani, Maryam, Wang, Xintai, Akers-Douglas, Maxwell, Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., Lambert, Colin, Albrecht, Tim, Hamill, Joseph M., Ismael, Ali, Al-Jobory, Alaa, Bennett, Troy L.R., Alshahrani, Maryam, Wang, Xintai, Akers-Douglas, Maxwell, Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., Lambert, Colin, and Albrecht, Tim

Abstract

We report on the single-molecule electronic and thermoelectric properties of strategically chosen anthracene-based molecules with anchor groups capable of binding to noble metal substrates, such as gold and platinum. Specifically, we study the effect of different anchor groups, as well as quantum interference, on the electric conductance and the thermopower of gold/single-molecule/gold junctions and generally find good agreement between theory and experiments. All molecular junctions display transport characteristics consistent with coherent transport and a Fermi alignment approximately in the middle of the highest occupied molecular orbital/lowest unoccupied molecular orbital gap. Single-molecule results are in agreement with previously reported thin-film data, further supporting the notion that molecular design considerations may be translated from the single- to many-molecule devices. For combinations of anchor groups where one binds significantly more strongly to the electrodes than the other, the stronger anchor group appears to dominate the thermoelectric behavior of the molecular junction. For other combinations, the choice of electrode material can determine the sign and magnitude of the thermopower. This finding has important implications for the design of thermoelectric generator devices, where both n- and p-type conductors are required for thermoelectric current generation.

Published
2023

10. Non-Elite Exemplaand Pietasin Livy’s First Pentad

Author

Wilkinson, Luke A.

Abstract

This paper argues for the presence and legibility of non-elite exemplawithin Livy’s first pentad and makes a case for the study of non-elite exemplain other Roman literary works. The paper makes use of several case studies to argue that non-elite exemplawithin Livy are treated differently, being built around specific non-threatening virtues, primarily pietas. It finds that Livian non-elite exemplaare complex and have serious issues with regards to agency and the potential for emulation. The paper also examines why Livy deployed these non-elite exemplary stories. To conclude, the paper engages with Matthew Roller’s 2018“Model of Roman Exemplarity,” ultimately arguing that this model does not account for the complications of Livy’s non-elite exempla, and that changes and allowances need to be made with Roller’s model in order to apply it to them.

Published
2024
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16. Assembly, structure and thermoelectric properties of 1,1’-dialkynylferrocene ‘hinges’

Author

Wilkinson, Luke A., Bennett, Troy, Grace, Iain, Hamill, Joseph, Wang, Xintai, Au-Yong, Sophie, Ismael, Ali, Jarvis, Samuel, Hou, Songjun, Albrecht, Tim, Cohen, Lesley F., Lambert, Colin, Robinson, Benjamin, Long, Nicholas J., Wilkinson, Luke A., Bennett, Troy, Grace, Iain, Hamill, Joseph, Wang, Xintai, Au-Yong, Sophie, Ismael, Ali, Jarvis, Samuel, Hou, Songjun, Albrecht, Tim, Cohen, Lesley F., Lambert, Colin, Robinson, Benjamin, and Long, Nicholas J.

Abstract

Dialkynylferrocenes exhibit attractive electronic and rotational features that make them ideal candidates for use in molecular electronic applications. However previous works have primarily focussed on single-molecule studies, with limited opportunities to translate these features into devices. In this report, we utilise a variety of techniques to examine both the geometric and electronic structure of a range of 1,1’-dialkynylferrocene molecules, as either single-molecules, or as self-assembled monolayers. Previous single molecule studies have shown that similar molecules can adopt an ‘open’ conformation. However, in this work, DFT calculations, STM-BJ experiments and AFM imaging reveal that these molecules prefer to occupy a ‘hairpin’ conformation, where both alkynes point towards the metal surface. Interestingly we find that only one of the terminal anchor groups binds to the surface, though both the presence, and nature of the second alkyne affects the thermoelectric properties of these systems. First, the secondary alkyne acts to affect the position of the frontier molecular orbitals, leading to increases in Seebeck coefficient. Secondly, theoretical calculations suggested that rotating the secondary alkyne away from the surface acts to modulate thermoelectric properties. This work represents the first of its kind to examine the assembly of dialkynylferrocenes, providing valuable information about both their structure and electronic properties, as well as unveiling new ways in which both of these properties can be controlled.

Published
2022

17. Multi-component self-assembled molecular-electronic films:towards new high-performance thermoelectric systems

Author

Bennett, Troy, Alshammari, Majed, Au-Yong, Sophie, Almutlg, Ahmad, Wang, Xintai, Wilkinson, Luke A., Albrecht, Tim, Jarvis, Samuel, Cohen, Lesley F., Ismael, Ali, Lambert, Colin, Robinson, Benjamin, Long, Nicholas J., Bennett, Troy, Alshammari, Majed, Au-Yong, Sophie, Almutlg, Ahmad, Wang, Xintai, Wilkinson, Luke A., Albrecht, Tim, Jarvis, Samuel, Cohen, Lesley F., Ismael, Ali, Lambert, Colin, Robinson, Benjamin, and Long, Nicholas J.

Abstract

The thermoelectric properties of parallel arrays of organic molecules on a surface offer the potential for large-area, flexible, solution processed, energy harvesting thin-films, whose room-temperature transport properties are controlled by quantum interference (QI). Recently, it has been demonstrated that constructive QI (CQI) can be translated from single molecules to self-assembled monolayers (SAMs), boosting both electrical conductivities and Seebeck coefficients. However, these CQI-enhanced systems are limited by rigid coupling of the component molecules to metallic electrodes, preventing the introduction of additional layers which would be advantageous for their further development. These rigid couplings also limit our ability to suppress the transport of phonons through these systems, which could act to boost their thermoelectric output, without comprising on their impressive electronic features. Here, through a combined experimental and theoretical study, we show that cross-plane thermoelectricity in SAMs can be enhanced by incorporating extra molecular layers. We utilize a bottom-up approach to assemble multi-component thin-films that combine a rigid, highly conductive ‘sticky’-linker, formed from alkynyl-functionalised anthracenes, and a ‘slippery’-linker consisting of a functionalized metalloporphyrin. Starting from an anthracene-based SAM, we demonstrate that subsequent addition of either a porphyrin layer or a graphene layer increases the Seebeck coefficient, and addition of both porphyrin and graphene leads to a further boost in their Seebeck coefficients. This demonstration of Seebeck-enhanced multi-component SAMs is the first of its kind and presents a new strategy towards the design of thin-film thermoelectric materials.

Published
2022

18. Tuning the thermoelectrical properties of anthracene-based self-assembled monolayers† †Electronic supplementary information (ESI) available: Synthesis of the molecules, device fabrication and characterization, charge transport in all the devices, charge transfer characterization and the theoretical demonstration of molecular orbitals as well as the calculated transmission coefficient of gold/molecule/gold systems for all molecules. See DOI: 10.1039/d0sc02193h

Author

Ismael, Ali, Wang, Xintai, Bennett, Troy L. R., Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., Cohen, Lesley F., and Lambert, Colin J.

Subjects
Chemistry, fungi, food and beverages
Abstract

It is known that the electrical conductance of single molecules can be controlled in a deterministic manner by chemically varying their anchor groups to external electrodes., It is known that the electrical conductance of single molecules can be controlled in a deterministic manner by chemically varying their anchor groups to external electrodes. Here, by employing synthetic methodologies to vary the terminal anchor groups around aromatic anthracene cores, and by forming self-assembled monolayers (SAMs) of the resulting molecules, we demonstrate that this method of control can be translated into cross-plane SAM-on-gold molecular films. The cross-plane conductance of SAMs formed from anthracene-based molecules with four different combinations of anchors are measured to differ by a factor of approximately 3 in agreement with theoretical predictions. We also demonstrate that the Seebeck coefficient of such films can be boosted by more than an order of magnitude by an appropriate choice of anchor groups and that both positive and negative Seebeck coefficients can be realised. This demonstration that the thermoelectric properties of SAMs are controlled by their anchor groups represents a critical step towards functional ultra-thin-film devices for future molecular-scale electronics.

Published
2020

20. Multi-component self-assembled molecular-electronic films: towards new high-performance thermoelectric systems

Author

Bennett, Troy L. R., primary, Alshammari, Majed, additional, Au-Yong, Sophie, additional, Almutlg, Ahmad, additional, Wang, Xintai, additional, Wilkinson, Luke A., additional, Albrecht, Tim, additional, Jarvis, Samuel P., additional, Cohen, Lesley F., additional, Ismael, Ali, additional, Lambert, Colin J., additional, Robinson, Benjamin J., additional, and Long, Nicholas J., additional

Published
2022
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21. Assembly, structure and thermoelectric properties of 1,1′-dialkynylferrocene ‘hinges’

Author

Wilkinson, Luke A., primary, Bennett, Troy L. R., additional, Grace, Iain M., additional, Hamill, Joseph, additional, Wang, Xintai, additional, Au-Yong, Sophie, additional, Ismael, Ali, additional, Jarvis, Samuel P., additional, Hou, Songjun, additional, Albrecht, Tim, additional, Cohen, Lesley F., additional, Lambert, Colin, additional, Robinson, Benjamin J., additional, and Long, Nicholas J., additional

Published
2022
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22. As nice as π: aromatic reactions activated by π‐coordination to transition metals

Author

Williams, Luke, Bhonoah, Yunas, Wilkinson, Luke Alexander, and Walton, James

Abstract

π‐Coordination of aromatic molecules to metals dramatically alters their reactivity. For example, coordinated carbons become more electrophilic and C‐H bonds of coordinated rings become more acidic. For many years, this change in reactivity has been used to trigger reactions that would not take place for uncoordinated arenes, however, there has been a recent resurgence in use of this technique, in part due to the development of catalytic reactions in which π‐coordination is transient. In this minireview, we describe the key reaction chemistry of arenes coordinated to a range of transition metals, including stereoselective reactions and industrially relevant syntheses. We also summarize outstanding examples of catalytic processes. Finally, we give perspectives on the future direction of the field, with respect to both reactions that are stoichiometric in activating metals and those employing catalytic metal

Published
2021

23. Erratum:Molecular-scale thermoelectricity: as simple as 'ABC' (Nanoscale Adv. (2020) 2 (5329–5334) DOI: 10.1039/D0NA00772B)

Author

Ismael, Ali, Al-Jobory, Alaa, Wang, Xintai, Alshehab, Abdullah, Almutlg, Ahmad, Alshammari, Majed, Grace, Iain, Bennett, Troy L.R., Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., Lambert, Colin, Ismael, Ali, Al-Jobory, Alaa, Wang, Xintai, Alshehab, Abdullah, Almutlg, Ahmad, Alshammari, Majed, Grace, Iain, Bennett, Troy L.R., Wilkinson, Luke A., Robinson, Benjamin J., Long, Nicholas J., and Lambert, Colin

Abstract

The authors regret that the name of one of the authors (Troy L. R. Bennett) was shown incorrectly in the original article. The corrected author list is as shown above. The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

Published
2021

24. Optimised Power Harvesting by Controlling the Pressure Applied to Molecular Junctions

Author

Wang, Xintai, Ismael, Ali, Almutlg, Ahmad, Alshammari, Majed, Al-Jobory, Alaa, Alshehab, Abdullah, Bennett, Troy, Wilkinson, Luke, Cohen, Lesley F., Long, Nicholas J., Robinson, Benjamin, Lambert, Colin, Wang, Xintai, Ismael, Ali, Almutlg, Ahmad, Alshammari, Majed, Al-Jobory, Alaa, Alshehab, Abdullah, Bennett, Troy, Wilkinson, Luke, Cohen, Lesley F., Long, Nicholas J., Robinson, Benjamin, and Lambert, Colin

Abstract

A major potential advantage of creating thermoelectric devices using self-assembled molecular layers is their mechanical flexibility. Previous reports have discussed the advantage of this flexibility from the perspective of facile skin attachment and the ability to avoid mechanical deformation. In this work, we demonstrate that the thermoelectric properties of such molecular devices can be controlled by taking advantage of their mechanical flexibility. The thermoelectric properties of self-assembled monolayers (SAMs) fabricated from thiol terminated molecules were measured with a modified AFM system, and the conformation of the SAMs was controlled by regulating the loading force between the organic thin film and the probe, which changes the tilt angle at the metal-molecule interface. We tracked the thermopower shift vs. the tilt angle of the SAM and showed that changes in both the electrical conductivity and Seebeck coefficient combine to optimize the power factor at a specific angle. This optimization of thermoelectric performance via applied pressure is confirmed through the use of theoretical calculations and is expected to be a general method for optimising the power factor of SAMs.

Published
2021

27. Scale-Up of Room-Temperature Constructive Quantum Interference from Single Molecules to Self-Assembled Molecular-Electronic Films

Author

Wang, Xintai, Bennett, Troy, Ismael, Ali, Wilkinson, Luke, Hamill, Joseph, White, Andrew J. P., Grace, Iain, Kolosov, Oleg, Albrecht, Tim, Robinson, Benjamin, Long, Nicholas J., Cohen, Lesley, Lambert, Colin, Wang, Xintai, Bennett, Troy, Ismael, Ali, Wilkinson, Luke, Hamill, Joseph, White, Andrew J. P., Grace, Iain, Kolosov, Oleg, Albrecht, Tim, Robinson, Benjamin, Long, Nicholas J., Cohen, Lesley, and Lambert, Colin

Abstract

The realization of self-assembled molecular-electronic films, whose room-temperature transport properties are controlled by quantum interference (QI), is an essential step in the scale-up of QI effects from single molecules to parallel arrays of molecules. Recently, the effect of destructive QI (DQI) on the electrical conductance of self-assembled monolayers (SAMs) has been investigated. Here, through a combined experimental and theoretical investigation, we demonstrate chemical control of different forms of constructive QI (CQI) in cross-plane transport through SAMs and assess its influence on cross-plane thermoelectricity in SAMs. It is known that the electrical conductance of single molecules can be controlled in a deterministic manner, by chemically varying their connectivity to external electrodes. Here, by employing synthetic methodologies to vary the connectivity of terminal anchor groups around aromatic anthracene cores, and by forming SAMs of the resulting molecules, we clearly demonstrate that this signature of CQI can be translated into SAM-on-gold molecular films. We show that the conductance of vertical molecular junctions formed from anthracene-based molecules with two different connectivities differ by a factor of approximately 16, in agreement with theoretical predictions for their conductance ratio based on CQI effects within the core. We also demonstrate that for molecules with thioether anchor groups, the Seebeck coefficient of such films is connectivity dependent and with an appropriate choice of connectivity can be boosted by ∼50%. This demonstration of QI and its influence on thermoelectricity in SAMs represents a critical step toward functional ultra-thin-film devices for future thermoelectric and molecular-scale electronics applications

Published
2020

29. Correction: Molecular-scale thermoelectricity: as simple as ‘ABC’

Author

Ismael, Ali, primary, Al-Jobory, Alaa, additional, Wang, Xintai, additional, Alshehab, Abdullah, additional, Almutlg, Ahmad, additional, Alshammari, Majed, additional, Grace, Iain, additional, Bennett, Troy L. R., additional, Wilkinson, Luke A., additional, Robinson, Benjamin J., additional, Long, Nicholas J., additional, and Lambert, Colin, additional

Published
2021
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30. Optimised power harvesting by controlling the pressure applied to molecular junctions

Author

Wang, Xintai, primary, Ismael, Ali, additional, Almutlg, Ahmad, additional, Alshammari, Majed, additional, Al-Jobory, Alaa, additional, Alshehab, Abdullah, additional, Bennett, Troy L. R., additional, Wilkinson, Luke A., additional, Cohen, Lesley F., additional, Long, Nicholas J., additional, Robinson, Benjamin J., additional, and Lambert, Colin, additional

Published
2021
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31. Scale-Up of Room-Temperature Constructive Quantum Interference from Single Molecules to Self-Assembled Molecular-Electronic Films

Author

Wang, Xintai, primary, Bennett, Troy L. R., additional, Ismael, Ali, additional, Wilkinson, Luke A., additional, Hamill, Joseph, additional, White, Andrew J. P., additional, Grace, Iain M., additional, Kolosov, Oleg V., additional, Albrecht, Tim, additional, Robinson, Benjamin J., additional, Long, Nicholas J., additional, Cohen, Lesley F., additional, and Lambert, Colin J., additional

Published
2020
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32. Molecular-scale thermoelectricity: as simple as ‘ABC’

Author

Ismael, Ali, primary, Al-Jobory, Alaa, additional, Wang, Xintai, additional, Alshehab, Abdullah, additional, Almutlg, Ahmad, additional, Alshammari, Majed, additional, Grace, Iain, additional, Benett, Troy L. R., additional, Wilkinson, Luke A., additional, Robinson, Benjamin J., additional, Long, Nicholas J., additional, and Lambert, Colin, additional

Published
2020
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33. A study of the comprehensiveness of the EDD to Traditional Cumbrian (1700–1898) and the usefulness of the EDD to Contemporary Cumbrian (1950–present), when compared against the OED, with the aim of determining the necessity for the EDD’s revision

Author

Wilkinson, Luke Thomas

Subjects
Cumbrian dialect, dialectology, lexicography
Abstract

The dialects of English have been under constant critique since the 16th Century (cf. section 1.2.1.2), labelled as the unsophisticated bastardisations of Standard English. As a result, English dialects have been in a steady state of decline for the last four-hundred years and various authors have endeavoured to preserve as much of their lexis and grammar as possible before they are replaced by the Standard. Currently, the most complete account of English dialect lexis is Wright’s (1898–1905) English Dialect Dictionary (EDD). However, little research on the comprehensiveness and usefulness of this source has been conducted by the academic community, with the only researcher tackling the issue with intent being Beal (2010b) in her study of Wright’s coverage of Yorkshire dialect lexis. Thus, the researcher saw a gap in the literature which he felt obliged to fill, using the groundwork laid by Beal (2010b) to investigate Wright’s coverage of his own dialect of Cumbrian. This study will explore English Dialect Dictionary’s (1898–1905) treatment of the Cumbrian dialect in comparison to the Oxford English Dictionary. Two research questions and their complementary time-periods will be referenced throughout this study, focussing on the EDD’s comprehensiveness for Traditional Cumbrian (dating 1700–1898) and the EDD’s usefulness to Contemporary Cumbrian (dating 1950–present). The methodology for this investigation is based on Beal’s (2010b) study of the EDD’s use of Hunter’s (1829) Hallamshire Glossary. She considered the extent and nature of Wright’s referencing, with the aim of determining the EDD’s comprehensiveness for the Traditional dialect of Yorkshire. Her methodology, with revision, is suitable for this investigation’s needs (cf. section 3). As will be demonstrated, the EDD proves less comprehensive than the OED for Traditional Cumbrian and less useful than the OED for Contemporary Cumbrian. This contests Wright’s self-proclaimed accolade of being the in-antiquate, “complete vocabulary of all English dialect words” (Wright 1898: v). The findings of this research, as illustrated by the conclusions to section 4.1 through 4.4, illustrate the necessity for the revision of the EDD to rectify the oversights Wright made for Traditional Cumbrian and to include the changes to Contemporary Cumbrian which have occurred since the publication of the EDD’s final volume. These revisions, if conducted systematically for all dialects covered by the EDD, are suggested by the researcher to greatly increase the EDD’s practicality as a tool for the study of all Traditional and Contemporary dialects.

Published
2019
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36. New Audi e-tron GT sets sights on Tesla.

Author

Wilkinson, Luke

Subjects
AUDI automobiles, DRAG coefficient, HEAD-up displays
Abstract

Up to 637bhp on offer and a range of nearly 300 miles AUDI has revealed its answer to the recently updated Tesla Model S, the e-tron GT. From launch, buyers will have a choice of two models: the e-tron GT quattro and RS e-tron GT. [Extracted from the article]

Published
2021

38. MR BROWN'S BOYS.

Author

Wilkinson, Luke

Subjects
ANTIQUE & classic cars, ART exhibitions, STEEL welding, ENGINEERING tolerances, AUTOMOBILES
Abstract

David begins to talk us through his brief for the Mini Remastered with a short anecdote. Its facility has a purpose-built room above the workshop, where customers can design their perfect car - and David has had some unusual requests. SINCE it was founded back in 2013, David Brown Automotive has carved out a name as a purveyor of immaculately manufactured models that celebrate the evocative lines and driving pleasure of British cars from the 1960s, but with modern reliability and drivetrains. [Extracted from the article]

Published
2021

39. Developing the case for medical physicists in diagnostic imaging

Author

Wilkinson, Luke

Subjects
Fluoroscopy, Digital radiography, Workforce, Acceptance testing, CT, Management
Abstract

Aim Methods and materials Results Conclusion Personal information References, Aim: Diagnostic Imaging departments benefit from medical physics services. The role of the Diagnostic Imaging Medical Physicist (DIMP) is poorly understood. Australian radiation legislation requires imaging providers to ensure that a DIMP is available...

Published
2014
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40. A review of the estimated effective dose from Transcatheter Aortic Valve Implantation (TAVI) and associated pre-procedural imaging

Author

Wilkinson, Luke

Subjects
Catheters, Angioplasty, Radioprotection / Radiation dose, Dosimetric comparison, Cardiac, Catheter arteriography, CT-Angiography
Abstract

Aim Methods and materials Results Conclusion Personal information References, Aim: Transcatheter Aortic Valve Implantation (TAVI) is a relatively new procedure that is conducted in a cardiac catheterisation suite where an artificial aortic valve is implanted in the aortic valve annulus using a balloon catheter(Figure(1)). This...

Published
2014
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41. Identification of novel signalling pathways dysregulated in pancreatic cancer-associated fibroblasts

Author

Barrera, Lawrence, primary, Lane, Brian, additional, Brumskill, Sarah, additional, Oldfield, Frances, additional, Lamond, Rebecca, additional, Wilkinson, Luke, additional, Bermejo-Rodriguez, Camino, additional, Aughton, Karen, additional, Sanna, Roberta, additional, Nunes, Quentin, additional, Perez-Mancera, Pedro, additional, Campbell, Fiona, additional, Andrews, Timothy, additional, Phillips, Phoebe, additional, Halloran, Christopher, additional, Sutton, Robert, additional, Greenhalf, William, additional, Neoptolemos, John, additional, and Costello, Eithne, additional

Published
2016
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43. BMW fires up new pair of M cars.

Author

Wilkinson, Luke

Subjects
DISC brakes, WIRELESS power transmission
Abstract

503bhp six-cylinder engine means 0-62mph in just 3.9 seconds BMW has pulled the wraps off a pair of new high-performance models, the M3 saloon and M4 coupé. As an optional extra, BMW also offers a pair of lightweight carbon-fibre bucket seats, which save 9.6kg over the car's regular seats. [Extracted from the article]

Published
2020

45. Lessons from Ten Cities

Author

Presley, Gabriel, Piatkowski, Robert, Perko, Claire, Ali, Najia, Johns, Gavin, Beza, Beza A., Bacher, Emily, Wilkinson, Luke W., Bush, Dereth, Yu, Jianqiu, Perez-Carro, Carlos F., Einarsson, Amber, Ciccone, Sarah, Spaht, Holden C., Herndon, Joshua, Fuson, Ellen, Mooney, Amanda, Radomski, Kirsten, Presley, Gabriel, Piatkowski, Robert, Perko, Claire, Ali, Najia, Johns, Gavin, Beza, Beza A., Bacher, Emily, Wilkinson, Luke W., Bush, Dereth, Yu, Jianqiu, Perez-Carro, Carlos F., Einarsson, Amber, Ciccone, Sarah, Spaht, Holden C., Herndon, Joshua, Fuson, Ellen, Mooney, Amanda, and Radomski, Kirsten

Abstract

This project focuses on the primary ingredient of urban form: the subdivision of urban territory into public and private domains (or public and private usage in some situations). Every project in existing urban cores - urban design, building or landscape - must understand the arrangement and dimension of lots, blocks and streets and their relationships to pre-existing ecological conditions, prior human occupation, previous interventions, political imprints and cultural desire. It is these relationships that irrigate this basic urban form with architecture and landscape potentials. Ideally at least one member of each team will have visited the selected city. The research must be accomplished quickly - realizing that the internet plus the library will have substantial information about each city. The documentation and analysis of each city will be presented in common format and graphics in three parts. First is the urban form in the city’s regional context, which may be geographic, topographic, ecological, political or some combination of those. This should reflect an understanding of the reasons for its location and its origins. Why was the city developed there in the first place? Second is the urban form itself, in three scales: 15K x 15k area of the urban core to show the primary urban form; a 7.5k x 7.5k area showing the urban core itself and its primary form characteristics, and a 1k x 1k area of blocks. The identical scales will allow visual comparisons among the five cities. Third will be a series of diagrams, illustrating the major design moves that created the distinctive urban form for each city. This might be understood as retroactive urban design - looking backward and then rebuilding them in sequence, based on your interpretation of the city's formal history. The conclusion of these diagrams will be a composite., The Urban Design Laboratory - Fall 2010. Assignment 1: Re-Inhabiting the Urban Core - Lessons From Ten Cities - Two Weeks.

Published
2010

48. Occupied times

Author

Wilkinson, Luke

Subjects
Literature/writing, Political science
Abstract

Jason Cowley (Editor's Note, 9 May) is mystified as to why no commanding political figure has been produced by the crises in recent times. To many 'millennials' like me, this [...]

Published
2014

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