Relevant bibliographies by topics / Membrane-free battery

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Academic literature on the topic 'Membrane-free battery'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Membrane-free battery"

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Sirugaloor, Thangavel Senthilkumar, Enrique Ibáñez León Santiago, Paula Navalpotro, et al. "Membrane-free Zn hybrid redox flow battery using water-in-salt aqueous biphasic electrolytes." Journal of Power Sources 608 (June 5, 2024): 234660. https://doi.org/10.1016/j.jpowsour.2024.234660.

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In this study, we develop a membrane-free Zn hybrid redox flow battery (RFB) using an unconventional water-in-salt aqueous biphasic system (WIS-ABS). This membrane-free Zn hybrid battery employs soluble ferrocene (Fc) derivative and Zn salt as the active species in the immiscible catholyte and anolyte, respectively. Initially, we demonstrate the potential of using WIS-ABS for a totally aqueous membrane-free Zn battery under static conditions. This static battery operates at a cell voltage of 1.01 V and effectively eradicates the detrimental self-discharge observed in membrane-free batteries, a
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Navalpotro, Paula, Jesus Palma, Marc Anderson, and Rebeca Marcilla. "A Membrane-Free Redox Flow Battery with Two Immiscible Redox." Angewandte Chemie International Edition 57, no. 15 (2017): 3853. https://doi.org/10.1002/anie.201704318.

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Flexible and scalable energy storage solutions are necessary for mitigating fluctuations of renewable energy sources. The main advantage of redox flow batteries is their ability to decouple power and energy. However, they present some limitations including poor performance, short-lifetimes, and expensive ion-selective membranes as well as high price, toxicity, and scarcity of vanadium compounds. We report a membrane-free battery that relies on the immiscibility of redox electrolytes and where vanadium is replaced by organic molecules. We show that the biphasic system formed by one acidic solut
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Paula, Navalpotro, E. Ibanez Santiago, Pedraza Eduardo, and Marcilla Rebeca. "A neutral pH aqueous biphasic system applied to both static and flow membrane-free battery." Energy Storage Materials 56, no. 2023 (2023): 403–11. https://doi.org/10.1016/j.ensm.2023.01.033.

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Here, we present a new aqueous biphasic system (ABS) with near neutral pH and containing highly soluble organic/organometallic active species that avoids crossover due to the thermodynamic separation of active species. This ABS become the best example of “Static” Membrane-Free Battery with the highest maximum theoretical energy density (21.7 Wh L􀀀 1), enhanced coulombic efficiency (96%) and stable performance over 250 cycles. Moreover, this work assesses the process of the self-discharge stablishing for the first time a protocol to quantify this phenomenon that results in low coulo
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Xu, Pengcheng, Congxin Xie, Chenhui Wang, et al. "A membrane-free interfacial battery with high energy density." Chemical Communications 54, no. 82 (2018): 11626–29. http://dx.doi.org/10.1039/c8cc06048g.

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Navalpotro, Paula, Santiago Enrique Ibañez, Eduardo Pedraza, and Rebeca Marcilla. "Towards Totally Aqueous Membrane-Free Flow Batteries: Fundamentals and Challenges." ECS Meeting Abstracts MA2023-02, no. 4 (2023): 808. http://dx.doi.org/10.1149/ma2023-024808mtgabs.

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The implementation of renewable energies (solar, wind, etc) is driven the development of new energy storage systems that can mitigate their inherent intermittency solving the mismatch between the energy demand and production. Among different systems, electrochemical energy storage devices stand out due to their efficiency, flexibility and modularity. Specifically, Redox Flow Batteries (RFB) are the unique type of battery able to decouple energy and power densities which makes them versatile and adaptable to different applications. Nevertheless, although they are commercially available, their i
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Kim, Jeongwon, Arim Seong, Yejin Yang, et al. "Indirect surpassing CO2 utilization in membrane-free CO2 battery." Nano Energy 82 (April 2021): 105741. http://dx.doi.org/10.1016/j.nanoen.2020.105741.

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Wang, Xiao, Amir Lashgari, Jingchao Chai, and Jianbing “Jimmy” Jiang. "A membrane-free, aqueous/nonaqueous hybrid redox flow battery." Energy Storage Materials 45 (March 2022): 1100–1108. http://dx.doi.org/10.1016/j.ensm.2021.11.008.

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Yang, Yuan, James Loomis, Hadi Ghasemi, et al. "Membrane-Free Battery for Harvesting Low-Grade Thermal Energy." Nano Letters 14, no. 11 (2014): 6578–83. http://dx.doi.org/10.1021/nl5032106.

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Ding, Yu, Yu Zhao, and Guihua Yu. "A Membrane-Free Ferrocene-Based High-Rate Semiliquid Battery." Nano Letters 15, no. 6 (2015): 4108–13. http://dx.doi.org/10.1021/acs.nanolett.5b01224.

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P., Navalpotro, Palma J., Marcilla R., M. S. S. Neves Catarina, G. Freire Mara, and A. P. Coutinho João. "Pioneering Use of Ionic Liquid-Based Aqueous Biphasic Systems as Membrane-Free Batteries." Advanced Science 5, no. 10 (2018): 1800576. https://doi.org/10.1002/advs.201800576.

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Aqueous biphasic systems (ABS) formed by water, ionic liquids (ILs), and salts, in which the two phases are water rich, are emonstrated here to act as potential membrane-free batteries. This concept is feasible due to the selective enrichment of redox organic molecules in each aqueous phase of ABS, which spontaneously form two liquid-phases above given concentrations of salt and IL. Therefore, the required separation of electrolytes in the battery is not driven by an expensive membrane that hampers mass transfer, but instead, by the intrinsic immiscibility of the two liquid phases. Moreover, t
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Book chapters on the topic "Membrane-free battery"

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Hsu, Che-Jung, Cheng-Huei Lin, Chih-Hung Lee, Li-Duan Tsai, and Chien-Ming Lai. "High Efficiency Fuel Cell Stack and Key Technologies of Power Module." In Proceedings of the 10th Hydrogen Technology Convention, Volume 1. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-8631-6_41.

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AbstractIn this paper, the development of key technologies in fuel cell stacks and fuel cell power modules are reported, with emphasis on high-volume production (>10,000 units/year). Fuel cell stack design is focused on the development of high-efficiency membrane electrode assemblies (≧300 mA/cm2 @0.8 V) suitable for continuous roll-to-roll manufacturing and high volumetric efficiency stacks (1.5 kW/L) with power rating of at least 10 kW. Power module design focuses on the union of liquid-cooled fuel cell stack, smart power conditioning technology, battery, hydrogen storage system and balan
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Conference papers on the topic "Membrane-free battery"

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Yan, Shutian, Jie Deng, Chulheung Bae, and Xinran Xiao. "Thermal Shrinkage Behavior of Battery Separator." In ASME 2018 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/imece2018-86621.

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Battery separators are thin, porous membrane of 20∼30 microns thickness. Polymer separators display a significant amount of shrinkage at elevated temperatures. It is difficult to quantitatively characterize the large shrinkage behavior with a free standing separator sample. This paper examines the use of a dynamic mechanical analyzer under tensile mode in measuring the coefficient of thermal expansion (CTE) of three commonly used separators.
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Divetia, Asheesh, Baruch D. Kuppermann, Guann-Pyng Li, and Mark Bachman. "Diffusion Controlled, Water-Powered Microactuator for Biomedical and Microfluidic Applications." In ASME 2007 5th International Conference on Nanochannels, Microchannels, and Minichannels. ASMEDC, 2007. http://dx.doi.org/10.1115/icnmm2007-30225.

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Current and advanced microfluidic and implantable biomedical devices present an increasing need for controlled mechanical actuation at the micro-scale, without the use of batteries or external power. Implantable applications such as drug delivery microdevices require long term, battery free operation to perform their operation over the course of many months or years. In this paper, we present a micro-electro-mechanical systems (MEMS) microactuator which is water-powered and does not require any external power or control for its operation. Furthermore, we have demonstrated that by controlling t
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Chen, Zheng, Tae I. Um, Jianzhong Zhu, and Hilary Bart-Smith. "Bio-Inspired Robotic Cownose Ray Propelled by Electroactive Polymer Pectoral Fin." In ASME 2011 International Mechanical Engineering Congress and Exposition. ASMEDC, 2011. http://dx.doi.org/10.1115/imece2011-64174.

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The cownose ray (Rhinoptera bonasus) demonstrates excellent swimming capabilities; generating highly efficient thrust via flapping of dorsally flattened pectoral fins. In this paper, we present a bio-inspired and free swimming robot that mimics the swimming behavior of the cownose ray. The robot has two artificial pectoral fins to generate thrust through a twisted flapping motion. Each artificial pectoral fin consists of one ionic polymer-metal composite (IPMC) as artificial muscle in the leading edge and a passive PDMS membrane in the trailing edge. By applying voltage signal to the IPMC, the
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Arnau, Francisco, Ricardo Novella, Luis Miguel García-Cuevas, and Fabio Gutiérrez. "Adapting an Internal Combustion Engine to Oxy-Fuel Combustion With In-Situ Oxygen Production." In ASME 2021 Internal Combustion Engine Division Fall Technical Conference. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/icef2021-67707.

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Abstract In transport applications, reciprocating internal combustion engines still have important advantages in terms of endurance and refueling time and available infrastructure when compared against fuel cell or battery-based powertrains. Although conventional internal combustion engine configurations produce important amounts of greenhouse gases and pollutant emissions, oxyfuel combustion can be used to mitigate to a great extent such emissions, mainly producing NOx-free, CO2 and H2O exhaust gases. However, the oxygen needed for the combustion, which is mixed with flue gases before enterin
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Moratti, Giancarlo, Manfredi Villani, Daniele Beltrami, Stefano Uberti, Paolo Iora, and Laura Tribioli. "Optimization with Dynamic Programming of the Energy Management Strategy for a Fuel Cell Hybrid Heavy-Duty Truck Minimizing Hydrogen Consumption and Degradation." In Conference on Sustainable Mobility. SAE International, 2024. http://dx.doi.org/10.4271/2024-24-0004.

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<div class="section abstract"><div class="htmlview paragraph">Achieving sustainable mobility requires the implementation of alternative and carbon-free technologies, especially in the sector of heavy-duty vehicles where powertrain electrification is challenging due to the high loads and long distances involved. In this context, hydrogen proton exchange membrane (PEM) fuel cell technology is considered a promising power source for heavy-duty hybrid electric vehicles. At the fuel cell level, the membrane electrode assembly (MEA) degradation and the system thermal management remain tw
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Lebit, Hermann, Benjamin Brunner, Natalya Kharitonova, and Eva Deemer. "Direct Lithium Extraction from Geothermal Brines: The New Oil." In Offshore Technology Conference. OTC, 2024. http://dx.doi.org/10.4043/35088-ms.

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Abstract The energy transition is an inevitable global development driven by geopolitical, environmental, economic and societal factors. It will fundamentally change how we access energy resources and how we will rebalance the growing demand in critical commodities. The global mobility sector consumes about 2/3 of the world crude oil production, which stands currently at or above 105 million barrels of oil per day (mmbopd). Even a minor reduction, for instance by increasing the electric vehicle fleet, would reduce greenhouse gas emissions but further stress our power grids along with an increa
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