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lithium-ion batteries

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Journal Articles
AM&P Technical Articles (2023) 181 (5): 31–33.
Published: 01 July 2023
... ASM International® 2023 2023 ASM International fire risk industrial computed tomography lithium-ion batteries manufacturing defects ADVANCED MATERIALS & PROCESSES | JULY/AUGUST 2023 KWWSVGRL RUJDVP DPSS TECHNICAL SPOTLIGHT KEEPING EV LITHIUM-ION BATTERIES GREEN WITH CT-SCAN DATA...
Journal Articles
AM&P Technical Articles (2022) 180 (1): 28–30.
Published: 01 January 2022
...Simon Nelms The benefits of trace elemental analysis to improve the performance and safety of lithium-ion batteries used in electric vehicles are explored. The benefits of trace elemental analysis to improve the performance and safety of lithium-ion batteries used in electric vehicles...
Journal Articles
AM&P Technical Articles (2017) 175 (8): 16–22.
Published: 01 November 2017
...Wojciech Kasprzak; Delin Li; Gregory S. Patience; Pierre Sauriol; Hernando Villazón Amarís; Mickaël Dollé; Michel Gauthier; Steeve Rousselot; Majid Talebi-Esfandarani; Thomas Bibienne; Xueliang Sun; Yulong Liu; Guoxian Liang Lithium-ion batteries are an important enabling technology for electric...
Journal Articles
AM&P Technical Articles (2023) 181 (5): 19–23.
Published: 01 July 2023
...Jaclyn Coyle; Kae Fink; Andrew Colclasure; Matthew Keyser A surge in electric vehicle production is ushering in a new era of research on the best methods to recycle used lithium-ion batteries. This article describes existing recycling methods and the work needed to establish a more fully circular...
Journal Articles
AM&P Technical Articles (2024) 182 (3): 24–27.
Published: 01 April 2024
...Ana C. Martínez; Alexis Maurel The benefits and flexibility of using additive manufacturing (AM) open up new possibilities for lithium-ion battery design and performance beyond the limitations of traditional manufacturing methods. In particular, AM offers the ability to build on-demand complex...
Journal Articles
AM&P Technical Articles (2022) 180 (4): 23–26.
Published: 01 May 2022
..., electric vehicles, primarily for batteries this value has ris- and fuel cells, but also for other com- en to 475 ppm. The ponents. The widely used lithium-ion batteries in EVs are the subject of much Apelian last five years have been the hottest research for greater efficiencies and en- five years...
Journal Articles
AM&P Technical Articles (2021) 179 (4): 22–24.
Published: 01 May 2021
... to be maintained while facilitating ion motion at room temperature and minimal pressure. Addressing these needs requires insights and expertise from fields outside the traditional lithium-ion battery community such as solid oxide fuel cells, synthesis science, barrier layers, heterostructure design, ceramic...
Journal Articles
AM&P Technical Articles (2020) 178 (4): 15–20.
Published: 01 May 2020
... incorporated gold nanoparticle/carbon nanotube (CNT)/poly(acrylamide) (GCP@PPy) hydrogel as electrodes, and CNT free GCP (GP) hydrogel as electrolytes[15]. EXTENDING THE LIFECYCLE Lithium-ion batteries with high energy capacity and long cycle life are of vital importance to meet increasing demands of powering...
Journal Articles
AM&P Technical Articles (2012) 170 (10): 14–18.
Published: 01 October 2012
... from the standpoint of maximizing battery life, cost reductions, and failure-mode safety concerns[10]. Lithium-ion battery electrodes are very sensitive to de-packaging, therefore serial sectioning techniques are limited in providing microstructural characterization. In addition, because...
Journal Articles
AM&P Technical Articles (2023) 181 (8): 24–28.
Published: 01 November 2023
... applications like energy storage and conversion, namely cathode material for lithium-ion batteries (LIBs) and supercapacitors. In recent years, LiFePO4 has been widely used as a cathode material in LIBs for electric vehicles due to its good chemical stability, high surface areas, adjustable particle sizes...
Journal Articles
AM&P Technical Articles (2014) 172 (6): 28–29.
Published: 01 June 2014
.... Reflection measurements are also useful for tandem extrusion coating and aseptic packaging production. Another important application of full spectrum IR sensor technology is lithium ion battery (LIB) production. Complex multilayer separator films, which separate the cathode and anode in all LIBs...
Journal Articles
AM&P Technical Articles (2018) 176 (1): 23–26.
Published: 01 January 2018
... such as lithium, cobalt, rare-earth elements, and copper would be key drivers of design and technology decisions. Currently, 45% of the world s cobalt production is used in lithium ion batteries, which has resulted in significant price hikes in cobalt during the past year. Research efforts to develop successful...
Journal Articles
AM&P Technical Articles (2021) 179 (4): 15–21.
Published: 01 May 2021
... While lithium-ion batteries have enabled rapid deployment of energy storage, most commercial applications have been limited to four hours of storage or less. Longer-duration storage can help alleviate the impact of extended periods of cloudy weather, for example, or even seasonal variations of solar...
Journal Articles
AM&P Technical Articles (2013) 171 (4): 17–20.
Published: 01 April 2013
... Systems Engineering and Practice, 21, Dec. 2012. 16. K. Rhodes, et al., Understanding the Degradation of Silicon Electrodes for Lithium-Ion Batteries Using Acoustic Emission, J. Electrochemical Soc., Vol 157, Dec. 2010. 17. L. Jin, et al., Electromagnetic Stimulation of the Acoustic Emission for Fatigue...
Journal Articles
AM&P Technical Articles (2022) 180 (2): 43–54.
Published: 01 March 2022
... years Thank you for your commitment! We look forward to celebrating your future success! Cleveland Hears about Battery Material Members of the Cleveland Chap- ter learned about The Role of Graphite in Lithium-Ion Batteries during their online technical meeting on January 18. The speaker, Ryan Paul...
Journal Articles
AM&P Technical Articles (2023) 181 (7): 45–54.
Published: 01 October 2023
... for Renewable Carbon and interned at Oak Ridge National Laboratory, where he worked on lithium-ion battery recycling. He also enjoys his involvement in Material Advantage. After graduation, Scroggins plans to pursue graduate studies of materials for energy storage and sustainability. David J. Chellman...
Journal Articles
AM&P Technical Articles (2021) 179 (4): 66–77.
Published: 01 May 2021
... and responsibili- ties for new professionals in the field. Since their commercialization three decades ago, lithium-ion batteries have enabled rapid advancements in portable electronics, electric vehicles, and renewable energy storage. Breakthroughs in design, manufacturing, electrode/separator chemistry...
Journal Articles
AM&P Technical Articles (2016) 174 (1): 41–48.
Published: 01 January 2016
... to the field of chemistry, including materials for superconductors, solar cells, lithium ion batteries, and processing of magnetic materials. Paranthaman will be honored at the AAAS annual meeting in February. Mr. Rare Earth Aims to Retire Karl A. Gschneidner Jr., FASM, will formally retire effective January...
Journal Articles
AM&P Technical Articles (2013) 171 (3): 39–45.
Published: 01 March 2013
... technology, a topic of considerable relevance in this age of ever-increasing demand for portable energy storage. His talk entitled Bat- teries: A Microstructural Perspective covered the history of batteries, from the Leyden jar of the 18th century, to modern dry cell types, and including lithium-ion...
Journal Articles
AM&P Technical Articles (2017) 175 (2): 24–27.
Published: 01 February 2017
... was established to research the high magnetic properties of rare-earth transition element intermetallic compounds. This research led to development of samarium cobalt magnetic compounds, which still remain important components of the high-end permanent magnet market, used in traveling wave tubes, ion propulsion...