Welcome to the Amira-Avizo Software Use Case Gallery
Below you will find a collection of use cases of our 3D data visualization and analysis software. These use cases include scientific publications, articles, papers, posters, presentations or even videos that show how is used to address various scientific and industrial research topics.
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A solid oxide fuel cell (SOFC) is an electrochemical device that converts the chemical energy of hydrogen directly into electricity. A single cell usually has a form of a flat plate in which an impervious and dense ion-conducting electrolyte is sandwiched between two porous catalytic electrodes: an anode and a cathode. Fuel is fed to the anode side, and the air is supplied to the cathode. The gasses cannot mix to avoid unproductive combustion. Instead, gasses hit catalyst material, lose their... Read more
Grzegorz Brus, Hiroshi Iwai, Janusz S. Szmyd
The prevailing electrode fabrication method for lithium-ion battery electrodes includes calendering at high pressures to densify the electrode and promote adhesion to the metal current collector.
However, this process increases the tortuosity of the pore network in the primary transport direction and imposes severe tradeoffs between electrode thickness and rate capability. With the aim of understanding the impact of pore tortuosity on electrode kinetics, and enabling cell designs with ... Read more
Benjamin Delattre, Ruhul Amin, Jonathan Sander, Joël De Coninck, Antoni P. Tomsia and Yet-Ming Chiang
The vanadium redox flow battery (VRFB) has emerged as a promising technology for large-scale storage of intermittent power generated from renewable energy sources due to its advantages such as scalability, high energy efficiency and low cost. In the current study, a three-dimensional(3D) Lattice Boltzmann model is developed to simulate the transport mechanisms of electrolyte flow, species and charge in the vanadium redox flow battery at the micro pore scale. An electrochemical model using the... Read more
Duo Zhang, Qiong Cai, Oluwadamilola O.Taiwo, Vladimir Yufit, Nigel P.Brandon, Sai Gu
An elemental sulfur electrode was imaged with X-ray micro and nano computed tomography and segmented into its constituent phases. Morphological parameters including phase fractions and pore and particle size distributions were calculated directly from labelled image data, and flux based simulations were performed to determine the effective molecular diffusivity of the pore phase and electrical conductivity of the conductive carbon and binder phase, D... Read more
Chun Tan, Matthew D. R. Kok , Sohrab R. Daemi , Daniel J. L. Brett and Paul R. Shearing
In recent years, the ability to examine the processes that cause the catastrophic failure of batteries as a result of thermal runaway has improved substantially. In this work, the effect of thermal runaway on the microstructure of the electrodes of a Na-ion battery is examined using X-ray computed tomography for the first time. The thermal failure induced via accelerating rate calorimetry enabled the examination of failed electrodes, which were subsequently compared with fresh s... Read more
Robinson, J. B., Heenan, T. M. M., Jervis, J. R., Tan, C., Kendrick, E., Brett, D. J. L., & Shearing, P. R.
Redox flow batteries offer a potential solution to an increase in renewable energy generation on the grid by offering long-term, large-scale storage and regulation of power. However, they are currently underutilised due to cost and performance issues, many of which are linked to the microstructure of the porous carbon electrodes used. Here, for the first time, we offer a detailed study of the in situ effects of compression on a commercially available carbon felt electrode. Visualisation ... Read more
Rhodri Jervis , Matt D.R. Kok , Tobias P. Neville , Quentin Meyer , Leon D. Brown , Francesco Iacoviello , Jeff T. Gostick , Dan J.L. Brett , Paul R. Shearing
In this paper a fully three dimensional, multiphase, micro-scale solid oxide fuel cellanode transport phenomena numerical model is proposed and verified. The Butler-Volmer model was combined with empirical relations for conductivity and diffusivity – notably the Fuller-Shetler-Giddings equation, and the Fickian modelfor transport of gas reagents. FIB-SEM tomography of a commercial SOFC stack anode was performed and the resulting images were processed to acquire input data. ... Read more
Tomasz A. Prokop, Katarzyna Berent, Hiroshi Iwai, Janusz S.Szmyd, Grzegorz Brus
X-ray computed tomography (X-ray CT) across multiple length scales is utilized for the first time to investigate the physical abuse of high C-rate pulsed discharge on cells wired individually and in parallel.. Manufactured lithium iron phosphate cells boasting high rate capability were pulse power tested in both wiring conditions with high discharge currents of 10C for a high number of cycles (up to 1200) until end of life (<80% of initial discharge capacity retained). The parallel ass... Read more
Rachel Carter, Brett Huhman, Corey T. Love, Iryna V. Zenyuk
Degradation mechanisms within solid oxide fuel cells (SOFC) during thermal cycling limit operational start-up times and cell lifetime, and must therefore be better understood and mitigated. This work explores such mechanisms using digital volume correlation (DVC) techniques applied to lab-based X-ray tomograms where the microstructural evolution is evaluated during the operational cycling of a Ni–YSZ/YSZ cell. To emulate reduced start-up times, five tomograms were collected over four operat... Read more
T. M. M. Heenan, X. Lu,, D. P. Finegan,, J. Robinson, F. Iacoviello, J. J. Bailey, D. J. L. Brett and P. R. Shearing
Lithium-ion (Li-ion) batteries operate via electrochemical reactions between positive and negative electrodes, formed by complex porous microstructures. An improved understanding of these materials can lead to a greater insight into the link between microscopic electrode morphology and macroscopic performance. The practice of calendering electrodes after manufacturing has been widely used to increase the volumetric energy density and improve the electrical contact between electrode... Read more
S. R. Daemi,X. Lu, D. Sykes, J. Behnsen, C. Tan, A. Palacios-Padros, J. Cookson, E. Petrucco, P. J. Withers, D. J. L. Brett and P. R. Shearing
Lithium sulfur (Li–S) batteries have great potential as a successor to Li-ion batteries, but their commercialization has been complicated by a multitude of issues stemming from their complex multiphase chemistry. In situ X-ray tomography investigations enable direct observations to be made about a battery, providing unprecedented insight into the microstructural evolution of the sulfur cathode and shedding light on the reaction kinetics of the sulfur phase. Here, for the first time, the mor... Read more
Chun Tan, Thomas M. M. Heenan, Ralf F. Ziesche, Sohrab R. Daemi, Jennifer Hack, Maximilian Maier, Shashidhara Marathe, Christoph Rau, Daniel J. L. Brett, Paul R. Shearing
Solid–liquid interfaces are important in a range of chemical, physical and biological processes but are often not fully understood owing to the lack of high-resolution characterization methods that are compatible with both solid and liquid components. For example, the related processes of dendritic deposition of lithium metal and the formation of solid–electrolyte interphase layers are known to be key determinants of battery safety and performance in high-energy-density lithium-metal bat... Read more
Michael J. Zachman, Zhengyuan Tu, Snehashis Choudhury, Lynden A. Archer & Lena F. Kourkoutis
Understanding the microstructural morphology of Li–ion battery electrodes is crucial to improving the electrochemical performance of current Li–ion battery systems and in developing next-generation power systems. The use of 3D X-ray imaging techniques, which are continuously evolving, provides a noninvasive platform to study the relationship between electrode microstructure and performance at various time and length scales. In addition to characterizing a weakly (X-ray) absorbing graphite... Read more
Oluwadamilola O. Taiwo , Donal P. Finegan , Jeff Gelb , Christian Holzner , Daniel J.L. Brett , Paul R. Shearing
Alternative battery technologies are required to meet growing energy demands and address the limitations of present technologies. As such, it is necessary to look beyond lithium-ion batteries. Zinc batteries enable high power density while being sourced from ubiquitous and cost-effective materials. This paper presents, for the first time known to the authors, multi-length scale tomography studies of failure mechanisms in zinc batteries with and without commercial microporous separators. In bo... Read more
Vladimir Yufit, Farid Tariq David S. Eastwood Moshiel Biton Billy Wu Peter D. Lee Nigel P. Brandon
The performance of electrochemical devices depends on the three-dimensional (3D) distributions of microstructural features in their electrodes. Several mature methods exist to characterize 3D microstructures over the microscale (tens of microns), which are useful in understanding homogeneous electrodes. However, methods that capture mesoscale (hundreds of microns) volumes at appropriate resolution (tens of nm) are lacking, though they are needed to understand more common, less ideal electrode... Read more
Tim Hsu, William K. Epting, Rubayyat Mahbub, Noel T. Nuhfer, Sudip Bhattachary, Yinkai Lei, Herbert M. Miller, Paul R. Ohodnicki, Kirk R. Gerdes, Harry W. Abernathy, Gregory A. Hackett, Anthony D. Rollett, Marc De Graef, Shawn Litster, Paul A. Salvador
Despite the importance of studying the instability of delithiated cathode materials, it remains difficult to underpin the degradation mechanism of lithium-rich cathode materials due to the complication of combined chemical and structural evolutions. Herein, we use state-of-the-art electron microscopy tools, in conjunction with synchrotron X-ray techniques and first-principle calculations to study a 4d-element-containing compound, Li2Ru0.5Mn0.5O3. We find surprisingly, after cycling, ruthenium... Read more
Lin, Ruoqian AU - Hu, Enyuan AU - Liu, Mingjie AU - Wang, Yi AU - Cheng, Hao AU - Wu, Jinpeng AU - Zheng, Jin-Cheng AU - Wu, Qin AU - Bak, Seongmin AU - Tong, Xiao AU - Zhang, Rui AU - Yang, Wanli AU - Persson, Kristin A. AU - Yu, Xiqian AU - Yang, Xiao-Qing AU - Xin, Huolin L. PY
This study presents a technique to directly characterize the carbon and binder domain (CBD) in lithium-ion (Li-ion) battery electrodes in three dimensions and use it to determine the effective transport properties of a LiNi0.33Mn0.33Co0.33O2 (NMC) electrode. X-ray nanocomputed tomography (nano-CT) is used to image an electrode composed solely of carbon and binder, whereas focused ion beam–scanning electron microscopy is used to analyze cross-sect... Read more
Sohrab R. Daemi, Chun Tan, Tobias Volkenandt, Samuel J. Cooper, Anna Palacios-Padros, James Cookson, Dan J. L. Brett, and Paul R. Shearing
The importance of reliable battery diagnostic systems has grown substantially in recent years as a result of the use of high power Li-ion battery packs in an increasingly diverse range of applications. Here, spatially resolved ultrasound acoustic measurements are used to analyse the condition of Li-ion electrodes. Ultrasonic measurements are performed on a commercial mobile phone battery over the full operating voltage window with the lithiation and delithiation of electrodes o... Read more
James B. Robinson, Maximilian Maier , George Alster , Tomos Compton , Dan J. L. Brett and Paul R. Shearing
Fuel cells are electrochemical devices that convert the chemical energy of fuels into electrical energy. An ideal option for a wide variety of portable, stationary, and automotive applications is using the polymer electrolyte
fuel cells due to their modular design, high efficiency, and environmental benefits.
A 3D microstructure of the non-woven gas diffusion layers (GDLs) of polymer electrolyte fuel cells (PEFCs) is reconstructed using a stochastic method. For a commercial GDL, ... Read more
Sepehr Sima Afrookhteh, Jalil Jamali, Mohsen Shakeric, Majid Baniassadi
Mass transport can significantly limit the rate of reaction and lead to concentration polarization in electrochemical devices, especially under the conditions of high operating current density.
In this study we investigate hierarchically structured micro-tubular solid
oxide fuel cells (MT-SOFC) fabricated by phase inversion technique and quantitatively assess the mass transport and electrochemical performance improvement compared to a conventional tubular SOFC. We present pioneer... Read more
Xuekun Lu, Tao Li, Antonio Bertei, Jason I S Cho , Thomas M.M. Heenan , Rabuni Mohamad, Kang Li, Dan JL Brett, Paul R Shearing
Composite cathodes comprising nanoscale
powders are expected to impart with high specific surface
area and triple phase boundary (TPB) density, which will lead
to better performance.
However, uniformly mixing nanosized heterophase powders remains a challenge due to their high surface energy and thus ease with which they agglomerate into their individual phases during the mixing and sintering
processes. In this study, we successfully synthesized La0.6Sr0.4Co0.2Fe... Read more
Dong Woo Joh, Areum Cha, Jeong Hwa Park, Kyeong Joon Kim, Kyung Taek Bae, Doyeub Kim, Young Ki Choi, Hyegsoon An, Ji Su Shin, Kyung Joong Yoon, and Kang Taek Lee