Bibliografías temáticas / Lithium cells

Literatura académica sobre el tema "Lithium cells"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 6 de septiembre de 2023

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Artículos de revistas sobre el tema "Lithium cells"

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Ziebert, Carlos, Corneliu Barbu y Tomas Jezdinsky. "Calorimetric studies and safety tests on lithion-ion cells and post-lithium cells". Open Access Government 37, n.º 1 (9 de enero de 2023): 416–17. http://dx.doi.org/10.56367/oag-037-10412.

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Calorimetric studies and safety tests on lithion-ion cells and post-lithium cells Open Access Government interviews Dr Carlos Ziebert, of the Karlsruhe Institute of Technology (KIT), who explores the thermal and safety properties of batteries across calorimetric studies. The group batteries – calorimetry and safety – focus on calorimetric studies and safety tests on lithium-ion cells and post-lithium cells. Depending on the cell size and application, different types of calorimeters are used in Europe's largest Battery Calorimeter Laboratory, established in 2011. It provides seven Accelerating Rate Calorimeters (ARCs) from Thermal Hazard Technology allowing the evaluation of thermodynamic, thermal and safety data for Lithium-ion and post-Li cells on material, cell, and pack levels for both normal and abuse conditions (thermal, electrical, mechanical). The lab also includes glove boxes for cell assembly and disassembly, many temperature chambers, a thermal camera, and cyclers with several hundred channels. It contains extremely sensitive 3D Calvet calorimeters, providing thermodynamic parameters and gas chromatography-mass spectrometry systems from Perkin-Elmer for venting gas analysis.
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Hammond, WP, ER Rodger y DC Dale. "Lithium augments GM-CSA generation in canine cyclic hematopoiesis". Blood 69, n.º 1 (1 de enero de 1987): 117–23. http://dx.doi.org/10.1182/blood.v69.1.117.bloodjournal691117.

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Cyclic hematopoiesis in gray collie dogs can be cured by lithium treatment. We examined the mechanism of lithium's effect by developing an assay for the canine equivalent of GM-CSF (called GM-CSA). Phytohemagglutinin (PHA)-stimulated canine blood mononuclear cells produce GM-CSA in a dose-dependent manner; this GM-CSA stimulates more neutrophil-containing colonies than does endotoxin-treated dog serum. Production of GM-CSA by PHA-stimulated normal dog cells was not altered by lithium. However, cells from gray collies during their neutrophilic period increased their GM-CSA when lithium (2 mEq/L) was added to low doses of PHA, whereas neutropenic gray collie cells did not. These data suggest that lithium could modulate cyclic hematopoiesis by increasing intramedullary GM-CSA at the time when marrow neutrophilic progenitor cells are at their nadir.
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Urquidi-Macdonald, Mirna, Homero Castaneda y Angela M. Cannon. "Lithium fuel cells:". Electrochimica Acta 47, n.º 15 (junio de 2002): 2495–503. http://dx.doi.org/10.1016/s0013-4686(02)00109-3.

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Hammond, WP, ER Rodger y DC Dale. "Lithium augments GM-CSA generation in canine cyclic hematopoiesis". Blood 69, n.º 1 (1 de enero de 1987): 117–23. http://dx.doi.org/10.1182/blood.v69.1.117.117.

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Abstract Cyclic hematopoiesis in gray collie dogs can be cured by lithium treatment. We examined the mechanism of lithium's effect by developing an assay for the canine equivalent of GM-CSF (called GM-CSA). Phytohemagglutinin (PHA)-stimulated canine blood mononuclear cells produce GM-CSA in a dose-dependent manner; this GM-CSA stimulates more neutrophil-containing colonies than does endotoxin-treated dog serum. Production of GM-CSA by PHA-stimulated normal dog cells was not altered by lithium. However, cells from gray collies during their neutrophilic period increased their GM-CSA when lithium (2 mEq/L) was added to low doses of PHA, whereas neutropenic gray collie cells did not. These data suggest that lithium could modulate cyclic hematopoiesis by increasing intramedullary GM-CSA at the time when marrow neutrophilic progenitor cells are at their nadir.
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Bugga, Ratnakumar V. y Marshall C. Smart. "Lithium Plating Behavior in Lithium-Ion Cells". ECS Transactions 25, n.º 36 (17 de diciembre de 2019): 241–52. http://dx.doi.org/10.1149/1.3393860.

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Auborn, J. J. y Y. L. Barberio. "Lithium Intercalation Cells Without Metallic Lithium: and". Journal of The Electrochemical Society 134, n.º 3 (1 de marzo de 1987): 638–41. http://dx.doi.org/10.1149/1.2100521.

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Gilmour, A., C. O. Giwa, J. C. Lee y A. G. Ritchie. "Lithium rechargeable envelope cells". Journal of Power Sources 65, n.º 1-2 (marzo de 1997): 219–24. http://dx.doi.org/10.1016/s0378-7753(97)02475-0.

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Kilroy, W. P., C. Schlaikjer, P. Polsonetti y M. Jones. "Optimized lithium oxyhalide cells". Journal of Power Sources 44, n.º 1-3 (abril de 1993): 715–23. http://dx.doi.org/10.1016/0378-7753(93)80223-c.

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Münstedt, H., G. Köhler, H. Möhwald, D. Naegele, R. Bitthin, G. Ely y E. Meissner. "Rechargeable polypyrrole/lithium cells". Synthetic Metals 18, n.º 1-3 (febrero de 1987): 259–64. http://dx.doi.org/10.1016/0379-6779(87)90890-3.

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Yoshimatsu, Isamu, Toshiro Hirai y Jun‐ichi Yamaki. "Lithium Electrode Morphology during Cycling in Lithium Cells". Journal of The Electrochemical Society 135, n.º 10 (1 de octubre de 1988): 2422–27. http://dx.doi.org/10.1149/1.2095351.

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Tesis sobre el tema "Lithium cells"

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Moseley, Steven D. "Characterization of graphite lithium-ion cells". Thesis, Monterey, Calif. : Naval Postgraduate School, 2007. http://bosun.nps.edu/uhtbin/hyperion-image.exe/07Sep%5FMoseley.pdf.

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Thesis (M.S. in Space Systems Operations)--Naval Postgraduate School, September 2007.
Thesis Advisor(s): Horning, James A. "September 2007." Description based on title screen as viewed on October 25, 2007. Includes bibliographical references (p. 97-98). Also available in print.
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Molepo, Lefoka Calvyn. "Lithium-induced apoptosis in WIL-2 lymphoma cells". Thesis, University of Limpopo, 2004. http://hdl.handle.net/10386/2070.

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Green, Susan. "The optimisation of lithium sulphuryl chloride cells". Thesis, Loughborough University, 1988. https://dspace.lboro.ac.uk/2134/27797.

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Hartmann, Richard Lee II. "An Aging Model for Lithium-Ion Cells". University of Akron / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=akron1226887071.

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Choi, Seungdon. "Soft chemistry synthesis and structure-property relationships of lithium-ion battery cathodes". Access restricted to users with UT Austin EID Full text (PDF) from UMI/Dissertation Abstracts International, 2001. http://wwwlib.umi.com/cr/utexas/fullcit?p3025204.

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Best, Adam Samuel 1976. "Lithium-ion conducting electrolytes for use in lithium battery applications". Monash University, School of Physics and Materials Engineering, 2001. http://arrow.monash.edu.au/hdl/1959.1/9240.

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Prakash, Shruti. "The development and fabrication of miniaturized direct methanol fuel cells and thin-film lithium ion battery hybrid system for portable applications". Diss., Atlanta, Ga. : Georgia Institute of Technology, 2009. http://hdl.handle.net/1853/28279.

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Thesis (M. S.)--Chemical Engineering, Georgia Institute of Technology, 2009.
Committee Chair: Kohl, Paul; Committee Member: Fuller, Tom; Committee Member: Gray, Gary; Committee Member: Liu, Meilin; Committee Member: Meredith, Carson; Committee Member: Rincon-Mora, Gabriel.
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Arabandi, Mounika. "Simulation of constant power profiles for Li ion batteries a thesis presented to the faculty of the Graduate School, Tennessee Technological University /". Click to access online, 2009. http://proquest.umi.com/pqdweb?index=0&did=2000384981&SrchMode=1&sid=5&Fmt=6&VInst=PROD&VType=PQD&RQT=309&VName=PQD&TS=1277842074&clientId=28564.

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周士明 y Shi-ming Chau. "Investigation of the electrochemical, spectroscopic and physical properties of the low melting 1-methyl-3-ethylimidazolium chloride /alcl3 / licl system for lithium battery application". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1992. http://hub.hku.hk/bib/B31232991.

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Kasavajjula, Uday S. "Role of phase transformation processes in determining the discharge behavior of electrodes in lithium ion battery a dissertation presented to the faculty of the Graduate School, Tennessee Technological University /". Click to access online, 2009. http://proquest.umi.com/pqdweb?index=22&sid=4&srchmode=1&vinst=PROD&fmt=6&startpage=-1&clientid=28564&vname=PQD&RQT=309&did=1756844351&scaling=FULL&ts=1250862718&vtype=PQD&rqt=309&TS=1250864217&clientId=28564.

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Libros sobre el tema "Lithium cells"

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Zaghib, K., Kathryn Ann Striebel y D. Guyomard. Lithium and lithium-ion batteries: Proceedings of the international symposium. Editado por Electrochemical Society Meeting. Pennington, NJ: Electrochemical Society, 2004.

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van, Schalkwijk Walter A. y Scrosati Bruno, eds. Advances in lithium-ion batteries. New York, NY: Kluwer Academic/Plenum Publishers, 2002.

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library, Wiley online, ed. Lithium ion rechargeable batteries. Weinheim: Wiley-VCH, 2009.

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1917-, Bach Ricardo O. y Gallicchio Vincent S, eds. Lithium and cell physiology. New York: Springer-Verlag, 1990.

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Taylor, Donald R. y Ryan I. Young. Lithium use in batteries: Demand and supply considerations. Hauppauge, N.Y: Nova Science Publishers, 2011.

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Taylor, Donald R. y Ryan I. Young. Lithium use in batteries: Demand and supply considerations. Hauppauge, N.Y: Nova Science Publishers, 2011.

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Gholamabbas, Nazri y Pistoia G, eds. Lithium batteries: Science and technology. Boston: Kluwer Academic Publishers, 2004.

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M, Wakihara y Yamamoto O, eds. Lithium ion batteries: Fundamentals and performance. Tokyo: Kodansha, 1998.

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Lithium-ion batteries: Science and technologies. New York: Springer, 2009.

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Symposium on Rechargeable Lithium and Lithium-ion Batteries (1994 Miami Beach, Fla.). Proceedings of the Symposium on Rechargeable Lithium and Lithium-ion Batteries. Editado por Megahed Sid, Barnett B. M, Xie Like y Electrochemical Society Battery Division. Pennington, NJ: Electrochemical Society, 1995.

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Capítulos de libros sobre el tema "Lithium cells"

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Gasteiger, Hubert, Katharina Krischer y Bruno Scrosati. "Electrochemical Cells: Basics". En Lithium Batteries, 1–19. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118615515.ch1.

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Spellman, Frank R. "Fuel Cells". En The Science of Lithium, 243–49. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003387879-32.

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Piana, Michele, Nikolaos Tsiouvaras y Juan Herranz. "Kinetics of the Oxygen Electrode in Lithium-Air Cells". En Lithium Batteries, 233–64. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118615515.ch11.

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Kumar, R. Vasant y Thapanee Sarakonsri. "Introduction to Electrochemical Cells". En High Energy Density Lithium Batteries, 1–25. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2010. http://dx.doi.org/10.1002/9783527630011.ch1.

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Scrosati, Bruno. "Low Voltage Lithium-Ion Cells". En Advances in Lithium-Ion Batteries, 289–308. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/0-306-47508-1_11.

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Reddy, Thomas B. "Lithium Primary Cells, Liquid Cathodes". En Encyclopedia of Applied Electrochemistry, 1165–75. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4419-6996-5_379.

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Zolin, Lorenzo. "Lithium-Based Batteries". En Large-scale Production of Paper-based Li-ion Cells, 13–38. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-39016-1_2.

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Lin, Tai-Fu, Ming-Hsien Li, Pei-Ying Lin, Itaru Raifuku, Joey Lin y Peter Chen. "Back-Contact Perovskite Solar Cells". En Lithium-Ion Batteries and Solar Cells, 219–31. First edition. | Boca Raton, FL : CRC Press/ Taylor & Francis Group, LLC, 2021.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003138327-12.

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Santee, Stuart G., Boris Ravdel, Malgorzata K. Gulbinska, Joseph S. Gnanaraj y Joseph F. DiCarlo. "Optimizing Electrodes for Lithium-ion Cells". En Lithium-ion Battery Materials and Engineering, 63–88. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-6548-4_3.

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Gulbinska, Malgorzata K., Arthur Dobley, Joseph S. Gnanaraj y Frank J. Puglia. "Lithium-ion Cells in Hybrid Systems". En Lithium-ion Battery Materials and Engineering, 151–73. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-6548-4_6.

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Actas de conferencias sobre el tema "Lithium cells"

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Miller, Greg, William Studyvin y Phillip Shimp. "Cell Equalization of Lithium Ion Cells". En Power Systems Conference. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2006. http://dx.doi.org/10.4271/2006-01-3022.

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Das, Susanta K. y Abhijit Sarkar. "Synthesis and Performance Evaluation of a Solid Electrolyte and Air Cathode for a Rechargeable Lithium-Air Battery". En ASME 2016 14th International Conference on Fuel Cell Science, Engineering and Technology collocated with the ASME 2016 Power Conference and the ASME 2016 10th International Conference on Energy Sustainability. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/fuelcell2016-59448.

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A tri-layered solid electrolyte and an oxygen permeable solid air cathode for lithium-air battery cells were synthesized in this investigation. Detailed fabrication procedures for solid electrolyte, air cathode and the assembly of real-world lithium-air battery cell are described. Fabrication of real-world lithium-air button cells was performed using the synthesized tri-layered solid electrolyte, an oxygen permeable air cathode, and a metallic lithium anode. The lithium-air button cells were tested under dry air with 0.1mA∼0.2mA discharge/charge current at different temperatures. It was found that interfacial contact resistances play an important role in Li-air battery cell performance. Experimental results suggested that the lack of robust interfacial contact among solid electrolyte, air cathode and lithium metal anode were the primary factors for the cell’s high internal resistances. It was also found that once the cell internal resistance issues were resolved, the discharge curve of the battery cell was much smoother and the cell was able to discharge at above 2.0V for up to 40 hours. It indicated that in order to have better performing lithium-air battery cell, interfacial contact resistances issue must be resolved very efficiently.
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Dubaniewicz, Thomas H. y Joseph P. DuCarme. "Are lithium ion cells Intrinsically Safe?" En 2012 IEEE Industry Applications Society Annual Meeting. IEEE, 2012. http://dx.doi.org/10.1109/ias.2012.6374075.

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Safi, Jariullah, Joel Anstrom, Sean Brennan y Hosam K. Fathy. "Differential Diagnostics for Lithium Ion Battery Cells Connected in Series". En ASME 2014 Dynamic Systems and Control Conference. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/dscc2014-6274.

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This paper presents a new method for estimating the capacity of a lithium ion battery cell in the presence of a reference cell — the parameters of which are well characterized — in series with it. The method assumes that both cells are cycled using the same current trajectory starting from the same state of charge (e.g. fully charged). Voltage measurements for both cells as well as current measurements for the series string constitute the input to a nonlinear least squares minimization problem. The goal of this problem is to estimate the capacity of the cell given the difference between its voltage and that of the reference cell. We refer to this as the differential estimation problem, and use Monte Carlo simulation to compare it to the more traditional approach of estimating the capacity of each cell in a battery string independently using its current/voltage measurements. Two key conclusions emerge from this simulation. Compared to traditional estimation, differential estimation results in capacity estimates whose variance is (i) twice as sensitive to voltage measurement noise but (ii) significantly less sensitive to current measurement noise. This makes differential estimation more appealing for battery packs with high current measurement noise and low voltage measurement noise.
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Garg, Mayank, Tanvir R. Tanim, Christopher D. Rahn, Hanna Bryngelsson y Niklas Legnedahl. "Temperature Control to Reduce Capacity Mismatch in Parallel-Connected Lithium Ion Cells". En ASME 2019 Dynamic Systems and Control Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/dscc2019-9151.

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Abstract The temperature and capacity of individual cells affect the current distribution in a battery pack. Non uniform current distribution among parallel-connected cells can lead to capacity imbalance and premature aging. This paper develops models that calculate the current in parallel-connected cells and predict their capacity fade. The model is validated experimentally for a nonuniform battery pack at different temperatures. The paper also proposes and validates the hypothesis that temperature control can reduce capacity mismatch in parallel-connected cells. Three Lithium Iron Phosphate cells, two cells at higher initial capacity than the third cell, are connected in parallel. The pack is cycled for 1500 Hybrid Electric Vehicles cycles with the higher capacity cells regulated at 40°C and the lower capacity cell at 20°C. As predicted by the model, the higher capacity and temperature cells age faster, reducing the capacity mismatch by 48% over the 1500 cycles. A case study shows that cooling of low capacity cells can reduce capacity mismatch and extend pack life.
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DeLaney, Scott C., Mary B. Burbules, Mayank Garg, Adam S. Hollinger y Christopher D. Rahn. "Design and Development of a Battery Internal Short Circuit Test Machine". En ASME 2017 11th International Conference on Energy Sustainability collocated with the ASME 2017 Power Conference Joint With ICOPE-17, the ASME 2017 15th International Conference on Fuel Cell Science, Engineering and Technology, and the ASME 2017 Nuclear Forum. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/es2017-3407.

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The use of lithium-based batteries, due to their high energy density, has become popular for power sources in portable electronic devices. Safety concerns over lithium cell applications have arisen due to their lower abuse tolerance compared to standard battery designs. Internal short circuits present one of the more dangerous abuse situations since there is a great potential of thermal runaway leading to fire and explosion. Field failures and recalls associated with internal short circuits demonstrate the risks of lithium batteries. Understanding the response of lithium cells under internal short circuit conditions is of great importance to ensure the safe development of lithium battery application. In this work, an internal short circuit test machine was designed to conduct nail penetration tests of lithium chemistry cells. The test machine successfully provides the required force to allow for multi-cell penetration. The test machine also provides accurate control of the penetrating nail’s position and velocity. This testing will support the development of models to simulate the mechanism of internal short circuits of lithium cells.
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Das, Susanta K. y K. Joel Berry. "Experimental Performance Evaluation of a Rechargeable Lithium-Air Battery With Hyper-Branched Polymer Electrolyte". En ASME 2018 12th International Conference on Energy Sustainability collocated with the ASME 2018 Power Conference and the ASME 2018 Nuclear Forum. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/es2018-7262.

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Synthesis of hyper branched polymer (HBP) based electrolyte has been examined in this study. A real world lithium-air battery cell was fabricated using the developed HBP electrolyte, oxygen permeable air cathode and lithium metal as anode material. Detailed synthesis procedures of hyper branched polymer electrolyte and the effect of different operation conditions on the real-world lithium-air battery cell were discussed in this paper. The fabricated battery cells were tested under dry air with 0.1mA∼0.2mA discharge current to determine the effect of different operation conditions such as carbon source, electrolyte types and cathode processes. It was found that different processes affect the battery cell performance significantly. We developed optimized battery cell materials upon taking into account the effect of different processes. Several battery cells were fabricated using the same optimized anode, cathode and electrolyte materials in order to determine the battery cells performance and reproducibility. Experimental results showed that the optimized battery cells were able to discharge over 55 hours at over 2.5V. It implies that the optimized battery cell can hold charge for more than two days at over 2.5V. It was also shown that the lithium-air battery cell can be reproduced without loss of performance with the optimized battery cell materials.
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He, Liang, Eugene Kim y Kang G. Shin. "✲-Aware Charging of Lithium-Ion Battery Cells". En 2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2016. http://dx.doi.org/10.1109/iccps.2016.7479067.

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Smart, M. C., B. V. Ratnakumar, C. K. Huang y S. Surampudi. "Electrolytes for Low Temperature Lithium-Ion Cells". En Aerospace Power Systems Conference. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1998. http://dx.doi.org/10.4271/981246.

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Ceraolo, Massimo, Giovanni Lutzemberger, Davide Poli y Claudio Scarpelli. "Experimental analysis of LFP lithium cells aging". En 2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe). IEEE, 2020. http://dx.doi.org/10.1109/eeeic/icpseurope49358.2020.9160621.

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Informes sobre el tema "Lithium cells"

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Kilroy, W. P., J. A. Banner, G. F. Hoff, K. A. Johnsston y W. A. Freeman. Lithium AA-Size Cells for Navy Mine Applications: 2. Evaluation of Commercial Cells. Fort Belvoir, VA: Defense Technical Information Center, febrero de 1994. http://dx.doi.org/10.21236/ada277268.

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Sriramulu, Suresh y Richard Stringfellow. Internal Short Circuits in Lithium-Ion Cells for PHEVs. Office of Scientific and Technical Information (OSTI), mayo de 2013. http://dx.doi.org/10.2172/1124078.

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Lanagan, M. T., I. Bloom y T. D. Kaun. Lithium-ferrate-based cathodes for molten carbonate fuel cells. Office of Scientific and Technical Information (OSTI), diciembre de 1996. http://dx.doi.org/10.2172/460251.

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Liu, Gao, Honghe Zheng y Vincent S. Battaglia. Fabrication procedure for LiMn2O4/Graphite-based Lithium-ionRechargeable Pouch Cells. Office of Scientific and Technical Information (OSTI), abril de 2007. http://dx.doi.org/10.2172/909518.

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Allen, Jan L., Jeff Wolfenstine, Kang Xu, Donald Porschet, Thomas Salem, Wesley Tipton, Wishvender Behl, Jeff Read, T. R. Jow y Sonya Gargies. Evaluation of Saft Ultra High Power Lithium Ion Cells (VL5U). Fort Belvoir, VA: Defense Technical Information Center, febrero de 2009. http://dx.doi.org/10.21236/ada494956.

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Granitzki, Richard F. y Aaron Barton. High-G Verification of Lithium-Polymer (Li-Po) Pouch Cells. Fort Belvoir, VA: Defense Technical Information Center, mayo de 2016. http://dx.doi.org/10.21236/ad1009209.

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Nelson, P. A. y A. N. Jansen. Comparative costs of flexible package cells and rigid cells for lithium-ionhybrid electric vehicle batteries. US: ANL, noviembre de 2006. http://dx.doi.org/10.2172/898525.

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Mayer, S. T. Electric vehicle dynamic-stress-test cycling performance of lithium-ion cells. Office of Scientific and Technical Information (OSTI), mayo de 1994. http://dx.doi.org/10.2172/10157702.

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Striebel, Kathryn A. y Joongpyo Shim. Performance and degradation evaluation of five different commercial lithium-ion cells. Office of Scientific and Technical Information (OSTI), abril de 2004. http://dx.doi.org/10.2172/841309.

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Wang, Chao-Yang. Efficient Safety and Degradation Modeling of Automotive Lithium-ion Cells and Packs. Office of Scientific and Technical Information (OSTI), septiembre de 2017. http://dx.doi.org/10.2172/1390930.

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