Relevant bibliographies by topics / All-Copper Redox Flow Battery

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Academic literature on the topic 'All-Copper Redox Flow Battery'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "All-Copper Redox Flow Battery"

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Schaltin, Stijn, Yun Li, Neil R. Brooks, et al. "Towards an all-copper redox flow battery based on a copper-containing ionic liquid." Chemical Communications 52, no. 2 (2016): 414–17. http://dx.doi.org/10.1039/c5cc06774j.

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Peljo, Pekka, David Lloyd, Nguyet Doan, Marko Majaneva, and Kyösti Kontturi. "Towards a thermally regenerative all-copper redox flow battery." Physical Chemistry Chemical Physics 16, no. 7 (2014): 2831. http://dx.doi.org/10.1039/c3cp54585g.

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Cross, Nicholas R., Renaldo E. Springer, Matthew J. Rau, et al. "Membrane Transport and Performance in the All-Aqueous Copper Thermally Regenerative Battery." ECS Meeting Abstracts MA2022-02, no. 1 (2022): 8. http://dx.doi.org/10.1149/ma2022-0218mtgabs.

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Redox flow batteries are emerging as a promising method to provide grid-scale power and long-duration energy storage safely and economically. The thermally regenerative ammonia battery (TRAB) is a new redox flow battery category that can be recharged using low-grade waste heat rather than electric energy, adding further flexibility to the applicability of flow battery systems. Recently, a new TRAB with all-aqueous electroactive species (referred to as the Cuaq-TRAB), as opposed to deposition-dissolution reactions, was found to have superior energy and power densities relative to competing TRAB
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D'Adamo, Mirko, Wouter Badenhorst, Lasse Murtomäki, et al. "Modeling an All-Copper Redox Flow Battery for Microgrid Applications: Impact of Current and Flow Rate on Capacity Fading and Deposition." Energies 18, no. 8 (2025): 2084. https://doi.org/10.3390/en18082084.

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The copper redox flow battery (CuRFB) stands out as a promising hybrid redox flow battery technology, offering significant advantages in electrolyte stability. Within the CuBER H-2020 project framework, this study addresses critical phenomena such as electrodeposition at the negative electrode during charging and copper crossover through the membrane, which influence capacity fading. A comprehensive two-dimensional physicochemical model of the CuRFB cell was developed using COMSOL Multiphysics, providing insights into the distribution of electroactive materials over time. The model was validat
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D’Adamo, Mirko, Wouter Badenhorst, Lasse Murtomäki, et al. "Modeling an All-Copper Redox Flow Battery for Microgrid Applications: Impact of Current and Flow Rate on Capacity Fading and Deposition." Energies 18, no. 8 (2025): 2084. https://doi.org/10.3390/en18082084.

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The copper redox flow battery (CuRFB) stands out as a promising hybrid redox flow battery technology, offering significant advantages in electrolyte stability. Within the CuBER H-2020 project framework, this study addresses critical phenomena such as electrodeposition at the negative electrode during charging and copper crossover through the membrane, which influence capacity fading. A comprehensive two-dimensional physicochemical model of the CuRFB cell was developed using COMSOL Multiphysics, providing insights into the distribution of electroactive materials over time. The model was validat
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Sanz, Laura, David Lloyd, Eva Magdalena, Jesús Palma, and Kyösti Kontturi. "Description and performance of a novel aqueous all-copper redox flow battery." Journal of Power Sources 268 (December 2014): 121–28. http://dx.doi.org/10.1016/j.jpowsour.2014.06.008.

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Zhang, Jing, Gaopeng Jiang, Pan Xu, et al. "An all-aqueous redox flow battery with unprecedented energy density." Energy & Environmental Science 11, no. 8 (2018): 2010–15. http://dx.doi.org/10.1039/c8ee00686e.

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Gong, Ke, Fei Xu, Jonathan B. Grunewald, et al. "All-Soluble All-Iron Aqueous Redox-Flow Battery." ACS Energy Letters 1, no. 1 (2016): 89–93. http://dx.doi.org/10.1021/acsenergylett.6b00049.

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Badenhorst, Wouter Dirk, Kuldeep, Laura Sanz, Catia Arbizzani, and Lasse Murtomäki. "Performance improvements for the all-copper redox flow battery: Membranes, electrodes, and electrolytes." Energy Reports 8 (November 2022): 8690–700. http://dx.doi.org/10.1016/j.egyr.2022.06.075.

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Li, Yun, Jeroen Sniekers, João Malaquias, et al. "A non-aqueous all-copper redox flow battery with highly soluble active species." Electrochimica Acta 236 (May 2017): 116–21. http://dx.doi.org/10.1016/j.electacta.2017.03.039.

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Dissertations / Theses on the topic "All-Copper Redox Flow Battery"

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Hawthorne, Krista Leigh. "Iron-Ligand Electrokinetics towards an all-Iron Hybrid Redox Flow Battery." Case Western Reserve University School of Graduate Studies / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=case1405002859.

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Zimmerman, Nathan. "Vanadium Redox Flow Battery : Sizing of VRB in electrified heavy construction equipment." Thesis, Mälardalens högskola, Framtidens energi, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-26918.

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In an effort to reduce global emissions by electrifying vehicles and machines with internal combustion engines has led to the development of batteries that are more powerful and efficient than the common lead acid battery.  One of the most popular batteries being used for such an installation is lithium ion, but due to its short effective usable lifetime, charging time, and costs has driven researcher to other technologies to replace it.  Vanadium redox flow batteries have come into the spotlight recently as a means of replacing rechargeable batteries in electric vehicles and has previously be
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Liu, Lichao. "Sulfonated poly ether ether sulfone membrane doped with ZIF-8 for enhancing performance in an all vanadium redox flow battery application." Case Western Reserve University School of Graduate Studies / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=case1516116142939028.

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Geiser, Jan Nicholas [Verfasser], and Rolf [Akademischer Betreuer] Hempelmann. "Development of an improved state-of-charge sensor for the all-vanadium redox flow battery / Jan Nicholas Geiser ; Betreuer: Rolf Hempelmann." Saarbrücken : Saarländische Universitäts- und Landesbibliothek, 2019. http://d-nb.info/1196090238/34.

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Geiser, Jan Nicholas Verfasser], and Rolf [Akademischer Betreuer] [Hempelmann. "Development of an improved state-of-charge sensor for the all-vanadium redox flow battery / Jan Nicholas Geiser ; Betreuer: Rolf Hempelmann." Saarbrücken : Saarländische Universitäts- und Landesbibliothek, 2019. http://d-nb.info/1196090238/34.

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El, Hage Ranine. "Etude et optimisation d'une batterie à circulation tout vanadium." Thesis, Toulouse 3, 2020. http://www.theses.fr/2020TOU30101.

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Le présent projet concerne la conception et l'optimisation des batteries à circulation (RFB). Ces dernières sont des dispositifs permettant la conversion électrochimique de l'énergie électrique et son stockage sous forme chimique ; le processus inverse vise à récupérer l'énergie stockée sous forme d'électricité, selon la demande. Les RFB sont bien adaptées pour répondre au caractère intermittent des ressources des énergies renouvelables. La batterie étudiée est la RFB tout vanadium (VRFB), qui a été développée dans les années 80 et dont l'avantage principal par rapport aux autres batteries à c
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Ressel, Simon Philipp. "Tubular All Vanadium and Vanadium/Air Redox Flow Cells." Doctoral thesis, 2019. http://hdl.handle.net/10251/131203.

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[ES] Un aumento de la generación de energía a partir de fuentes renovables (solar, eólica) requiere una alta flexibilidad de las redes eléctricas. En este sentido, las baterías de flujo redox de vanadio (BFRV) han demostrado una excelente capacidad para proporcionar dicha flexibilidad, mediante el almacenamiento eficiente de energía eléctrica en el rango de los kWh a los MWh. Sin embargo, sus elevados costes son en la actualidad unos de los mayores inconvenientes que dificultan una amplia penetración en el mercado. En la presente Tesis Doctoral se presenta el desarrollo y evaluación de
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Shih, Yu-chen, and 施又甄. "Study of Electrode Modification for All Vanadium Redox Flow Battery." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/95kxh3.

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碩士<br>國立臺灣科技大學<br>材料科學與工程系<br>103<br>High surface area, high conductivity and porous structure graphite felt materials are common choice of all vanadium redox flow battery. However, graphite felt materials have serious problems of their insufficient electrochemical activity and low electrochemical reversible ability. In order to overcome those problems, this study uses (1) acid treatment activation method and (2) microwave-assisted hydrothermal method as activation methods to solve these problems. In the first part, the graphite felt was immersed in acid solution which was mixed with 60 mL of
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Liu, Lin-Hui, and 劉藺慧. "Real-time Potential Analysis for All Vanadium Redox Flow Battery." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/zxf9v9.

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Lin, Yu Zhou, and 林裕洲. "The Inorganic Salts Modified Electrolytes used All-Vanadium Redox flow Battery." Thesis, 2014. http://ndltd.ncl.edu.tw/handle/69326577124980860840.

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碩士<br>長庚大學<br>化工與材料工程學系<br>102<br>Renewable energy used in smart grid development, large-scale energy storage technology developed by the attention. All vanadium redox flow battery (VRFB) is a mature technology and close to commercialization. VRB is divided into three core technologies: Proton exchange Membrane, Vanadium electrolyte, Carbon felt. But among the three vanadium electrolyte technology costs higher. If it want to increase the total storage capacity of the battery and reduce equipment costs, to find suitable formulations are particularly important. Positive vanadium electrolyte has
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Book chapters on the topic "All-Copper Redox Flow Battery"

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Sathisha, H. M., and Amaresh Dalal. "3D Unsteady Numerical Simulation of All-Vanadium Redox Flow Battery." In Fluid Mechanics and Fluid Power – Contemporary Research. Springer India, 2016. http://dx.doi.org/10.1007/978-81-322-2743-4_44.

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Sun, Guobin, Yufu Hao, Zhenghao Li, Li Wang, and Kun Fang. "SOC Estimation of All-Vanadium Redox Flow Battery via Parameters Identification and UKF Algorithm." In Lecture Notes in Electrical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2862-0_84.

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Li, Xin, Huimin Zhu, Ya Qiu, Junkang Shao, and Jihan Zhang. "An Open Model of All-Vanadium Redox Flow Battery Based on Material Parameters of Key Components." In Communications in Computer and Information Science. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-7210-1_41.

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Sathisha, H. M., and Amaresh Dalal. "An Unsteady Model to Study the Effects of Porosity and Temperature in All-Vanadium Redox Flow Battery with Mass Transfer and Ion Diffusion." In Sustainable Energy Technology and Policies. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-8393-8_17.

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L. Peake, Catherine, Graham N. Newton, and Darren A. Walsh. "Charge Carriers for Next-Generation Redox Flow Batteries." In Redox Chemistry - From Molecules to Energy Storage [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.102967.

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Increasing the volumetric energy density of redox flow batteries beyond that of the archetypal all-vanadium system requires the development of highly soluble charge carriers that can store multiple electrons per charge cycle. In this review article we will describe the design and performance of a range of new charge carriers for flow batteries, with an emphasis on those with multi-electron redox properties. These include fullerene derivatives, multifunctional organic systems, metal coordination complexes, and polyoxometalates. Our discussion will include an evaluation of the fundamental physic
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Atkins, Peter. "The Generation Game: Electrochemistry." In Reactions. Oxford University Press, 2011. http://dx.doi.org/10.1093/oso/9780199695126.003.0011.

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You already know, if you have read Reaction 6, that an electric current is a stream of electrons. If you have also read the section on redox reactions (Reaction 5), which you should, in preparation for this account, then you will also know that in a redox reaction electrons are transferred from one species to another. Although it is now far too late, had you had that information 150 or so years ago, then you might have realized that if those species were at the opposite ends of a piece of wire, the transfer of electrons would then take place in the form of an electric current travelling along
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Atkins, Peter. "Electric Occurrence: Electrolysis." In Reactions. Oxford University Press, 2011. http://dx.doi.org/10.1093/oso/9780199695126.003.0010.

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Electrolysis makes use of electric currents, a stream of electrons, to bring about chemical change. It puts electricity to work by using it to break or form bonds by forcing electrons on to molecules or sucking electrons out of them. Electrolysis is an application of the redox processes I described in Reaction 5, where I showed that reduction is the gain of electrons and that oxidation is their loss. All that happens in electrolysis is the use of an external supply of electrons from a battery or other direct-current (DC) source to push them on to a species and so bring about its reduction, or
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Conference papers on the topic "All-Copper Redox Flow Battery"

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Xiong Binyu, Zhao Jiyun, and Li Jinbin. "Modeling of an all-vanadium redox flow battery and optimization of flow rates." In 2013 IEEE Power & Energy Society General Meeting. IEEE, 2013. http://dx.doi.org/10.1109/pesmg.2013.6672599.

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Sathisha, H. M., and Amaresh Dalal. "Simplified Mathematical Model to Evaluate the Performance of the All-Vanadium Redox Flow Battery." In ASME 2013 Heat Transfer Summer Conference collocated with the ASME 2013 7th International Conference on Energy Sustainability and the ASME 2013 11th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/ht2013-17366.

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All-vanadium redox flow battery is one of the promising rechargeable battery since it is able to withstand average loads, high energy efficiency and high power output. The battery exhibits the excellent transient behaviour and sustains sudden voltage drop. The dynamics of the battery is governed by the conservation equations of mass and charge. The simplified mathematical model includes major resistances, electrochemical reactions and recirculation of electrolyte through reservoirs. The mathematical model is able to predict the performance of the battery. The cell performance can be increased
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Zhou, Jiangqi, Min Wang, and Xin Li. "Simulation of the all-vanadium redox flow battery with composite arched channel." In 2018 7th International Conference on Energy, Environment and Sustainable Development (ICEESD 2018). Atlantis Press, 2018. http://dx.doi.org/10.2991/iceesd-18.2018.334.

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Cook, Korey, Ethan Lau, Jordan Thayer, Shane Mann, Tom Guarr, and Andre Benard. "Development of a Membraneless Organic Redox Flow Battery." In ASME 2018 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/imece2018-88024.

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The development of a novel electrochemical energy storage system, specifically a redox flow batteries (RFB), is discussed in this work. It has the distinction of not requiring an ion-selective membrane due to novel chemical compounds. The techno-economic aspects of a low-cost 3D printed flow cell and system design tailored for a novel chemistry is discussed. The organic compounds employed are inexpensive, have a long lifespan, and as mentioned enable the system to be membraneless. All these substantially decrease the capital and maintenance costs. Suitable systems were developed and tested usi
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Aiemsathit, Poramet, Pengfei Sun, Mehrzad Alizadeh, et al. "Optimal Porous Electrode Structures in All-Vanadium Redox Flow Batteries." In 2024 Small Powertrains and Energy Systems Technology Conference. SAE International, 2025. https://doi.org/10.4271/2024-32-0085.

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&lt;div class="section abstract"&gt;&lt;div class="htmlview paragraph"&gt;To address the pressing issue of electrical fluctuations from renewable energy technologies, an energy storage system (ESS) is proposed. The vanadium redox flow battery (VRFB) is gaining significant attention due to its extended lifespan, durability, thermal safety, and independent power capacity, despite its high cost. Key components of the VRFB include a membrane, carbon electrode, bipolar plate, gasket, current collector, electrolyte, and pump. Among these, the carbon electrode and bipolar plate are the most expensive
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Binyu, Xiong, Jiyun Zhao, Wei Zhongbao, and Zhang Chenda. "State of charge estimation of an all-vanadium redox flow battery based on a thermal-dependent model." In 2013 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC). IEEE, 2013. http://dx.doi.org/10.1109/appeec.2013.6837290.

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Ariyanti, Dessy, and Aprilina Purbasari. "Various active materials implications on the performance of all organic redox flow battery (AORFB) in aqueous electrolyte." In THE 2ND INTERNATIONAL SYMPOSIUM OF INDONESIAN CHEMICAL ENGINEERING 2021: Enhancing Innovations and Applications of Chemical Engineering for Accelerating Sustainable Development Goals. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0112201.

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Cao, Hongfei, Xinjian Zhu, Haifeng Shen, and Meng Shao. "A Neural Network Based Method for Real-Time Measurement of Capacity and SOC of Vanadium Redox Flow Battery." In ASME 2015 13th International Conference on Fuel Cell Science, Engineering and Technology collocated with the ASME 2015 Power Conference, the ASME 2015 9th International Conference on Energy Sustainability, and the ASME 2015 Nuclear Forum. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/fuelcell2015-49305.

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The state of charge (SOC) of Vanadium Redox Flow Battery (VRFB) plays an important role in the operation and control of the Battery system. The value of SOC can be defined as the ratio of the remaining capacity to the rated capacity of the battery. Current measurement of SOC of VRFB is limited to one certain charge-discharge circulation so the rated capacity is known and can be regarded as a constant. However, during long time cycling, the capacity of VRFB will reduce gradually to a relatively low level so that the capacity of the battery cannot be seen as the constant value of rated capacity,
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Stegner, Christoph. "An Open Circuit Voltage and Overpotential Model for an All Vanadium Redox Flow Battery Derived from Several Years of Operating Data." In International Renewable Energy Storage Conference 2021 (IRES 2021). Atlantis Press, 2022. http://dx.doi.org/10.2991/ahe.k.220301.012.

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Aljunid, Nur Adilah, Michelle A. K. Denlinger, and Hosam K. Fathy. "Self-Balancing by Design in Hybrid Electrochemical Battery Packs." In ASME 2018 Dynamic Systems and Control Conference. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/dscc2018-9106.

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This paper explores the novel concept that a hybrid battery pack containing both lithium-ion (Li-ion) and vanadium redox flow (VRF) cells can self-balance automatically, by design. The proposed hybrid pack connects the Li-ion and VRF cells in parallel to form “hybrid cells”, then connects these hybrid cells into series strings. The basic idea is to exploit the recirculation and mixing of the VRF electrolytes to establish an internal feedback loop. This feedback loop attenuates state of charge (SOC) imbalances in both the VRF battery and the lithium-ion cells connected to it. This self-balancin
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Reports on the topic "All-Copper Redox Flow Battery"

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Clausen, Jonathan R., Victor E. Brunini, Harry K. Moffat, and Mario J. Martinez. Numerical modeling of an all vanadium redox flow battery. Office of Scientific and Technical Information (OSTI), 2014. http://dx.doi.org/10.2172/1147681.

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Cross, Nicholas, Jose Rochin, and Derek Hall. Development of an All-Aqueous Thermally Regenerative Redox Flow Battery to Support Fossil Fuel Assets. Office of Scientific and Technical Information (OSTI), 2023. http://dx.doi.org/10.2172/2204041.

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