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1. Parameterising continuum level Li-ion battery models & the LiionDB database

Author

Wang, A. A., O'Kane, S. E. J., Planella, F. Brosa, Houx, J. Le, O'Regan, K., Zyskin, M., Edge, J., Monroe, C. W., Cooper, S. J., Howey, D. A., Kendrick, E., and Foster, J. M.

Subjects
Physics - Chemical Physics, Physics - Applied Physics
Abstract

The Doyle-Fuller-Newman framework is the most popular physics-based continuum-level description of the chemical and dynamical internal processes within operating lithium-ion-battery cells. With sufficient flexibility to model a wide range of battery designs and chemistries, the framework provides an effective balance between detail, needed to capture key microscopic mechanisms, and simplicity, needed to solve the governing equations at a relatively modest computational expense. Nevertheless, implementation requires values of numerous model parameters, whose ranges of applicability, estimation, and validation pose challenges. This article provides a critical review of the methods to measure or infer parameters for use within the isothermal DFN framework, discusses their advantages or disadvantages, and clarifies limitations attached to their practical application. Accompanying this discussion we provide a searchable database, available at www.liiondb.com, which aggregates many parameters and state functions for the standard Doyle-Fuller-Newman model that have been reported in the literature.

Published
2021
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3. Hydrogen adsorption and dynamics in clay minerals

Author

Edge, J. S.

Subjects
500
Abstract

A new class of hydrogen storage material (HSM), the swelling clay minerals, is introduced by the investigation of laponite, a representative smectite. Simple ion exchange allows for a diverse range of charged species to be studied as possible adsorption sites for H2 within the laponite interlayer, while a sub-monolayer of water pillars the interlayers apart by 2.85 Å, close to the kinetic diameter of H2. Neutron diffraction shows that the 001 peak, representing the clay d-spacing, is directly affected by the introduction of H2 or D2, confirming intercalation into the interlayers. Volumetric adsorption isotherms and neutron scattering show that laponites with 3 wt% H2O rapidly physisorb 0.5-1 wt% H2 at 77 K and 80 bar, with low binding enthalpies (3.40-8.74 kJ mol-1) and consequently low room temperature uptake (0.1 wt% at 100 bar). The higher structural density of clays results in lower H2 densities than MOFs and activated carbons, however some cation-exchanged forms, such as Mg and Cs, show promise for improvement having capacities of 22.8 g H2 per litre at 77K, 80 bar, intermediate between AX-21 and IRMOF-20. At low coverage, INS spectra reveal up to five adsorption sites with low rotational energy barriers (0.7-4.8 kJ mol-1), persisting up to at least 50 K. Analysis of quasielastic neutron scattering (QENS) spectra for Ca-laponite expanded with 3 wt% H2O reveals two populations of interlayer H2: one immobile up to 100 K and localised to the Ca2+ cations, while the other diffuses by jump diffusion at a rate of 1.93 0.23 Å2 ps-1 at 80 K, 60% slower than in the bulk (Dbulk = 4.90 0.84 Å2 ps-1). Arrhenius analysis gives activation energies of 188 28 K for the calcium and 120 32 K for the sodium form, comparable to the range for activated carbons. The adsorbate phase density of H2 in laponite interlayers at 40 K is 67.08 kg m-3, close to the bulk liquid density of 70.6 kg m-3. Jump lengths of 3.2 0.4 Å for Ca-laponite measured by QENS at 40 K are similar to the H2-H2 nearest neighbour distance in condensed H2 (3.79 Å). Thus data from a variety of techniques provides a coherent model for the structure and behaviour of H2 in laponite. The experimental achievement of a two-dimensional film of liquidlike H2 confined within the interlayers up to 40 K is of great interest for the field of superfluidics, since it may be possible to supercool liquid hydrogen confined in laponite interlayers below the predicted Bose-Einstein condensation temperature at 1 K.

Published
2015

4. Quantum phase transitions of a disordered antiferromagnetic topological insulator

Author

Baireuther, P., Edge, J. M., Fulga, I. C., Beenakker, C. W. J., and Tworzydło, J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the effect of electrostatic disorder on the conductivity of a three-dimensional antiferromagnetic insulator (a stack of quantum anomalous Hall layers with staggered magnetization). The phase diagram contains regions where the increase of disorder first causes the appearance of surface conduction (via a topological phase transition), followed by the appearance of bulk conduction (via a metal-insulator transition). The conducting surface states are stabilized by an effective time-reversal symmetry that is broken locally by the disorder but restored on long length scales. A simple self-consistent Born approximation reliably locates the boundaries of this socalled "statistical" topological phase., Comment: 7 pages, 7 figures; v2 shows updated figures

Published
2013
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5. Wigner-Poisson statistics of topological transitions in a Josephson junction

Author

Beenakker, C. W. J., Edge, J. M., Dahlhaus, J. P., Pikulin, D. I., Mi, Shuo, and Wimmer, M.

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

The phase-dependent bound states (Andreev levels) of a Josephson junction can cross at the Fermi level, if the superconducting ground state switches between even and odd fermion parity. The level crossing is topologically protected, in the absence of time-reversal and spin-rotation symmetry, irrespective of whether the superconductor itself is topologically trivial or not. We develop a statistical theory of these topological transitions in an N-mode quantum-dot Josephson junction, by associating the Andreev level crossings with the real eigenvalues of a random non-Hermitian matrix. The number of topological transitions in a 2pi phase interval scales as sqrt(N) and their spacing distribution is a hybrid of the Wigner and Poisson distributions of random-matrix theory., Comment: 12 pages, 15 figures; v2 to appear in PRL, with appendix in the supplementary material

Published
2013
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6. Statistical Topological Insulators

Author

Fulga, I. C., van Heck, B., Edge, J. M., and Akhmerov, A. R.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We define a class of insulators with gapless surface states protected from localization due to the statistical properties of a disordered ensemble, namely due to the ensemble's invariance under a certain symmetry. We show that these insulators are topological, and are protected by a $\mathbb{Z}_2$ invariant. Finally, we prove that every topological insulator gives rise to an infinite number of classes of statistical topological insulators in higher dimensions. Our conclusions are confirmed by numerical simulations., Comment: 6 pages, 1 table, 5 figures, this is the final, published version

Published
2012
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7. Metallic phase of the quantum Hall effect in four-dimensional space

Author

Edge, J. M., Tworzydło, J., and Beenakker, C. W. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the phase diagram of the quantum Hall effect in four-dimensional (4D) space. Unlike in 2D, in 4D there exists a metallic as well as an insulating phase, depending on the disorder strength. The critical exponent $\nu\approx 1.2$ of the diverging localization length at the quantum Hall insulator-to-metal transition differs from the semiclassical value $\nu=1$ of 4D Anderson transitions in the presence of time-reversal symmetry. Our numerical analysis is based on a mapping of the 4D Hamiltonian onto a 1D dynamical system, providing a route towards the experimental realization of the 4D quantum Hall effect., Comment: 4+epsilon pages, 3 figures

Published
2012
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8. Metal--topological-insulator transition in the quantum kicked rotator with Z2 symmetry

Author

van Nieuwenburg, E. P. L., Edge, J. M., Dahlhaus, J. P., Tworzydło, J., and Beenakker, C. W. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The quantum kicked rotator is a periodically driven dynamical system with a metal-insulator transition. We extend the model so that it includes phase transitions between a metal and a topological insulator, in the universality class of the quantum spin Hall effect. We calculate the Z2 topological invariant using a scattering formulation that remains valid in the presence of disorder. The scaling laws at the phase transition can be studied efficiently by replacing one of the two spatial dimensions with a second incommensurate driving frequency. We find that the critical exponent does not depend on the topological invariant, in agreement with earlier independent results from the network model of the quantum spin Hall effect., Comment: 5 figures, 6 pages

Published
2012
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9. Majorana fermions emerging from magnetic nanoparticles on a superconductor without spin-orbit coupling

Author

Choy, T. -P., Edge, J. M., Akhmerov, A. R., and Beenakker, C. W. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

There exists a variety of proposals to transform a conventional s-wave superconductor into a topological superconductor, supporting Majorana fermion mid-gap states. A necessary ingredient of these proposals is strong spin-orbit coupling. Here we propose an alternative system consisting of a one-dimensional chain of magnetic nanoparticles on a superconducting substrate. No spin-orbit coupling in the superconductor is needed. We calculate the topological quantum number of a chain of finite length, including the competing effects of disorder in the orientation of the magnetic moments and in the hopping energies, to identify the transition into the topologically nontrivial state (with Majorana fermions at the end points of the chain)., Comment: 7 pages, 5 figures

Published
2011
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10. Quantum Hall effect in a one-dimensional dynamical system

Author

Dahlhaus, J. P., Edge, J. M., Tworzydlo, J., and Beenakker, C. W. J.

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

We construct a periodically time-dependent Hamiltonian with a phase transition in the quantum Hall universality class. One spatial dimension can be eliminated by introducing a second incommensurate driving frequency, so that we can study the quantum Hall effect in a one-dimensional (1D) system. This reduction to 1D is very efficient computationally and would make it possible to perform experiments on the 2D quantum Hall effect using cold atoms in a 1D optical lattice., Comment: 8 pages, 6 figures

Published
2011
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12. DESKTOP ANALYSIS AND QUALITATIVE INVESTIGATION OF PROGRAMMES AND INITIATIVES FOR THE PREVENTION OF AND RESPONSE TO GENDER BASED VIOLENCE AT SOUTH AFRICAN UNIVERSITIES WITH MEDICAL CAMPUSES.

Author

Hewett, M., Butler-Kruger, L., Foflonker, K., Edge, J., Botha, M. H., and Seedat, S.

Subjects
GENDER-based violence, VIOLENCE against women, UNIVERSITIES & colleges, LITERATURE reviews, TRUST, HIGHER education
Abstract

Gender-based violence (GBV) is pervasive at South African higher education institutions (HEIs). Based on a media statement (dated 6 October 2016) by the Department of Higher Education and Training, GBV programmes at HEIs need to be evidence-informed, responsive, contextually relevant, inclusive and person-centred. The present article aims to explore the nature of GBV programmes currently implemented at HEIs in South Africa. A rapid review of the literature, supported by qualitative interviews with representatives of South African HEIs with medical campuses, was conducted. Findings indicate that there is an urgent need to clearly define GBV and to mention it explicitly in policy documents. In addition, research evidence on the effectiveness of prevention and response interventions at HEIs in South Africa is lacking. Challenges highlighted by the HEIs that were surveyed include the lack of trust by staff and students in the response and action plans of the response/task teams at HEIs, uncertainty with regards to the roles of relevant stakeholders and sectors when reporting incidents, as well as insufficient information about what GBV is. This study is intended to provide a baseline for further research evaluating current GBV programmes on medical campuses at HEIs, and highlights the need for an evidence-informed framework of the key ingredients for effective GBV response and prevention programmes. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Retroperitoneoscopic adrenalectomy -introducing a new surgical technique in South Africa

Author

Conradie, W, Conradie, M, Geldenhuys, E, Edge, J, Coetzee, A, and Lambrechts, A

Subjects
benign adrenal pathology, adrenal, adrenalectomy, posterior retroperitoneoscopic adrenalectomy, operative times, pheochromocytoma
Abstract

BACKGROUND: Posterior retroperitoneoscopic adrenalectomy (PRA) is purported to be superior to the laparoscopic transperitoneal approach (LA) in patients with a select spectrum of benign adrenal pathologies. Advantages attributed to the technique include minimal blood loss, shortened operative times, and decreased postoperative pain, explained anatomically by the direct access to the adrenal gland. Reduced workspace is a limitation METHODS: A retrospective review of 22 consecutive PRAs performed in a single centre between 1 September 2016 and 30 October 2020 is presented. Two experienced laparoscopic surgeons operated on all patients after acquiring the technique at international centres. Suitable candidates were carefully pre-selected. Non-benign pathology, high vascularity, body mass index (BMI) > 45 kg/m² and anatomical concerns on prior computed tomography (CT) imaging were exclusion criteria RESULTS: Twenty-two PRAs were performed for a spectrum of benign adrenal pathologies. Twenty-one surgeries (95%) were completed. A single case of pheochromocytoma required conversion. The procedure was safe, a minor postoperative complication (pneumaturia) occurred in one case, and the mortality rate was 0%. Median operative time (80 minutes) is comparable to other reported series in the literature, with a modest linear descending tendency noted over the study period. Underlying pathology influenced operative times. Pheochromocytomas proved to be most challenging and required careful preoperative evaluation CONCLUSION: The PRA procedures performed at Tygerberg Academic Hospital were safe and reproducible in a select group of cases with benign adrenal pathology. Endocrine surgeons proficient with laparoscopic techniques should be encouraged to use the PRA approach when encountering adrenal neoplasms that fit the criteria

Published
2023

16. A comparison of invasive lobular carcinoma with other invasive breast cancers at Tygerberg Academic Hospital

Author

de Jager, L, Schubert, PT, Baatjes, K, Conradie, W, and Edge, J

Subjects
breast cancer, breast cancer, invasive lobular carcinoma, combined hormonal replacement therapy, invasive lobular carcinoma, Surgery, combined hormonal replacement therapy
Abstract

BACKGROUND: The second most common histological subtype of invasive breast carcinoma is invasive lobular carcinoma (ILC) occuring with a frequency 10-15% in Western countries and approximately 5%, in Africa, the Middle East and Asia (AMA). Combined hormone replacement therapy (CHRT) is a risk factor for the development of ILC which is infrequently diagnosed at our centre.This study aimed to investigate the incidence and clinicopathological characteristics of ILC as compared to invasive breast carcinoma of no special type (IBC-NST METHODS: Clinical and pathological data on breast carcinoma patients attending the breast and endocrine unit at Tygerberg Academic Hospital since 2017 have been recorded on a Stellenbosch University REDCap® database RESULTS: IBC-NST was the most frequent subtype diagnosed (83.9%) and ILC the second most common subtype (5.2%). Most ILCs were of luminal B intrinsic subtype, and the median size was slightly smaller than IBC-NST. There were significantly more grade 2 ILCs than IBC-NSTs (81.5% vs 50.9%). There was no statistical difference between stage and histological subtype CONCLUSION: ILC has clinicopathological differences when compared to IBC-NST, although these were less pronounced in this study. The prevalence of ILC was similar to numbers reported in AMA. We hypothesise that there may be a discrepancy in the prevalence of ILC between public and private healthcare systems in South Africa, and that it may be due to differing trends in prescribing CHRT

Published
2022

17. Impact of a multidisciplinary approach to ultrasoundguided thyroid fine-needle aspiration biopsy at Tygerberg Hospital, Cape Town, South Africa: A retrospective audit

Author

Conradie, W, du Plessis, A, Edge, J, Baatjes, K, Ruiters, A, and Razack, R

Abstract

BACKGROUND. Thyroid nodules are common and mostly benign. Inadequate sampling generally occurs in 13 - 17% of thyroid fine-needle aspiration biopsies (FNABs), but the proportion was found to be as high as 45% on evaluating 100 ultrasound (US)-guided FNABs in a previous unpublished audit at Tygerberg Hospital, Cape Town, South Africa (SA). OBJECTIVES. Primary aim: To determine the diagnostic yield of US-guided thyroid biopsy after implementing changes to existing practices, involving the creation of a specialised clinic and applying protocols for referral and FNAB. Secondary aim: To compare the results with other centres in SA. METHODS. A retrospective audit of 178 thyroid biopsies was conducted. All US-guided thyroid biopsies performed in the specialised clinic between January 2017 and July 2018 were included. Data were analysed using descriptive statistics. RESULTS. The 178 nodules were biopsied in 159 patients. The mean age was 53.7 years, with a gender ratio of 9.6:1 (female/male). A reduction in non-diagnostic biopsies was noted compared with the historical cohort (45% v. 32.6%). Sixty-one nodules (34.3%) had previously been biopsied with inadequate cytology results. When repeat biopsies were excluded, only 16.2% (n=19) were classified as insufficient. CONCLUSIONS. These findings illustrate the importance of the multidisciplinary approach and standardisation of the US-guided biopsy procedure and the value of consistency and quality control in a health system. While nodular thyroid disease is common and FNAB is relatively simple, early referral to a central specialised unit to minimise the incidence of inadequate FNAB should be considered.

Published
2022

18. A continuum of physics-based lithium-ion battery models reviewed

Author

Brosa Planella, F, primary, Ai, W, additional, Boyce, A M, additional, Ghosh, A, additional, Korotkin, I, additional, Sahu, S, additional, Sulzer, V, additional, Timms, R, additional, Tranter, T G, additional, Zyskin, M, additional, Cooper, S J, additional, Edge, J S, additional, Foster, J M, additional, Marinescu, M, additional, Wu, B, additional, and Richardson, G, additional

Published
2022
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21. Safe and sustainable lithium-ion batteries

Author

Kallitsis, E, Lander, L, Edge, J, Bravo Diaz, L, Brown, A, Kelsall, G, Offer, G, and Korre, A

Subjects
ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION
Abstract

The transition to clean energy and electric mobility is driving unprecedented demand for lithium-ion batteries (LIBs). This paper investigates the safety and sustainability of LIBs, exploring ways of reducing their impact on the environment and ensuring they do not pose a danger to health of workers or users.

Published
2022

27. Laminar Non-Newtonian fluid flow in noncircular ducts and microchannels

Author

Muzychka, Y.S. and Edge, J.

Subjects
Fluid dynamics -- Research, Laminar flow -- Evaluation, Friction -- Evaluation, Engineering and manufacturing industries, Science and technology
Abstract

Non-Newtonian fluid flow in noncircular ducts and microchannels is examined. A simple model is proposed for power law fluids based on the Rabinowitsch--Mooney formulation. By means of a new characteristic length scale, the square root of the cross-sectional area, it is shown that dimensionless wall shear stress can be made a weak function of duct shape. The proposed model is based on the solution for the rectangular duct and has an accuracy of [+ or -] 10% or better. The current model eliminates the need for tabulated data or equations for several common shapes found in handbooks, namely, circular tube, elliptic tube, parallel channel rectangular duct, isosceles triangular duct, circular annulus, and polygonal ducts. [DOI: 10.1115/1.2979005] Keywords: non-Newtonian flow, power law fluid, friction factor, noncircular ducts, laminar flow, microchannels

Published
2008

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