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Journal articles on the topic 'Industrie lithique'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

Fouéré, Pierrick. "Industrie lithique en silex." Gallia préhistoire 41, no. 1 (1999): 193–209. http://dx.doi.org/10.3406/galip.1999.2353.

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2

Oliva, Martin. "Le Szélétien de Tchécoslovaquie : industrie lithique et répartition géographique." Paléo. Supplément 1, no. 1 (1995): 83–90. http://dx.doi.org/10.3406/pal.1995.1383.

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3

Atherton, John. ": Tichitt-Walata (R.I. Mauritanie): Civilisation et Industrie Lithique . Sylvie Amblard." American Anthropologist 88, no. 2 (1986): 498–99. http://dx.doi.org/10.1525/aa.1986.88.2.02a00620.

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4

Bailly, Maxence. "Une industrie lithique campaniforme ? Apports de la technologie lithique à l'étude du Campaniforme domestique (résumé de communication)." Bulletin de la Société préhistorique française 95, no. 3 (1998): 302. http://dx.doi.org/10.3406/bspf.1998.10803.

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5

Mester, Zsolt. "Le matériel lithique de la grotte Büdöspest. Faciès d'atelier ou industrie intermédiaire ?" Paléo. Supplément 1, no. 1 (1995): 31–35. http://dx.doi.org/10.3406/pal.1995.1377.

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6

Lhomme, Vincent, Nelly Connet, and Christine Chaussé. "Le gisement de Soucy 6 (Yonne) et son industrie lithique dans le contexte des industries à éclats du Paléolithique inférieur en Europe du Nord-Ouest." Bulletin de la Société préhistorique française 100, no. 2 (2003): 241–51. http://dx.doi.org/10.3406/bspf.2003.12835.

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7

Olivier, TOUZÉ. "La séquence gravettienne de Belgique : mise à jour et mises au point." Comptes Rendus Palevol 22, no. 25 (2023): 511–40. https://doi.org/10.5852/cr-palevol2023v22a25.

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Le Gravettien en Belgique est document&eacute; dans un nombre limit&eacute; de gisements. Il s&rsquo;agit en g&eacute;n&eacute;ral de gisements de grottes ou d&rsquo;abris sous roche situ&eacute;s dans le bassin mosan, qui ont souvent fait l&rsquo;objet de fouilles d&egrave;s le XIX<sup>e</sup> si&egrave;cle, notamment les plus importants d&rsquo;entre eux. La connaissance que nous avons du Gravettien belge doit &eacute;norm&eacute;ment aux recherches de M. Otte. Dans les ann&eacute;es 1970, cet auteur a compil&eacute;, synth&eacute;tis&eacute; et structur&eacute; une documentation &eacute;par
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8

Chabot, Jacques. "Industrie néolithique de longues lames en obsidienne, l’exemple d’Aknashen-Khatunarkh (Arménie, début du VIe millénaire) : sur la piste des premiers débitages par pression." Journal of Lithic Studies 4, no. 2 (2017): 163–79. http://dx.doi.org/10.2218/jls.v4i2.2542.

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Aknashen (autrefois appelé Khatunakh) est un petit village néolithique de la vallée de l’Ararat localisé à 25 km de Erevan (capitale de l’Arménie) et à 5 km au sud-ouest d’Echmiadzin (Vagharshapat). Aknashen est également situé à seulement six kilomètres d’un autre village néolithique qui lui est contemporain : Aratashen, site pour lequel nous avons récemment publié une étude tehnologique du matériel lithique en obsidienne.&#x0D; Des fouilles ont eu lieu chaque année à Aknashen depuis 2004. En ce qui concerne le matériel lithique, ces travaux ont permis de mettre au jour deux chaînes opératoir
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9

Ameloot-Van der Heijden, Nathalie. "L'ensemble lithique du gisement de Longavesnes (Somme) : illustration d'un problème de reconnaissance du débitage levallois dans une industrie à bifaces de la phase ancienne du Paléolithique moyen." Bulletin de la Société préhistorique française 90, no. 4 (1993): 257–64. http://dx.doi.org/10.3406/bspf.1993.9591.

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10

BOURGUIGNON, Laurence, Iluminada ORTEGA, and Felipe CUARTERO. "L'outillage en quartz spécialisé utilisé en percussion lancée en contexte discoïde à Pointe pseudo-Levallois : l'exemple de Champs de Bossuet." Comptes Rendus Palevol 21, no. 24 (2022): 489–509. https://doi.org/10.5281/zenodo.6826380.

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La composante en quartz de l&rsquo;industrie de Champs de Bossuet (CdB) a fait l&rsquo;objet d&rsquo;analyses technologique et techno-fonctionnelle ax&eacute;es sur la caract&eacute;risation ergonomique des outils percutants en lien avec leurs morphologies, leurs dimensions et leurs masses, mais surtout sur celle de leur Zone Active de Percussion (ZAP) lors des activit&eacute;s de percussion (morphologie, &eacute;tendue, localisation). Apr&egrave;s avoir &eacute;valu&eacute; la place tenue par les outils percutants au sein de la composante en quartz, ils seront d&eacute;crits sur la base d&rsq
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11

Cyril, VIALLET, MINET Théo, FERNANDES Paul, et al. "L'outillage façonné utilisé en percussion lancée du site paléolithique moyen du Bois de l'Hôpital (Saint-Sulpice-la-Pointe, Tarn)." Comptes Rendus Palevol 21, no. 5 (2022): 123–43. https://doi.org/10.5852/ cr-palevol2022v21a5.

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Le site du Bois de l&rsquo;H&ocirc;pital (Saint-Sulpice-la-Pointe, Tarn), fouill&eacute; dans le cadre d&rsquo;une op&eacute;ration pr&eacute;ventive r&eacute;alis&eacute;e entre novembre 2015 et avril 2016 (Bernard-Guelle<em> et al.</em> 2016), a livr&eacute; plusieurs niveaux d&rsquo;occupations du Pl&eacute;istoc&egrave;ne sup&eacute;rieur dans un contexte in&eacute;dit pour le Pal&eacute;olithique moyen de la basse vall&eacute;e du Tarn. Le niveau principal (ou Unit&eacute; Arch&eacute;ologique UA3) regroupe une industrie lithique principalement sur quartz, parfois sur quartzite et silex,
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12

Milburn, Mark. "Tichitt-Wàlata (R. I. Mauritanie). Civilisation et Industrie lithique. By Sylvie Amblard. 29.5 × 20.5 cm. Pp. 321, 251 figs., 48 tables + fold. map. Paris: Éditions Recherche sur les Civilisations A.D.P.F, 1984. ISBN 286538-0785. Fr. 234." Antiquaries Journal 65, no. 2 (1985): 486–87. http://dx.doi.org/10.1017/s0003581500027293.

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13

Jelinek, Arthur J. "Industries lithiques." Gallia préhistoire 40, no. 1 (1998): 38–56. http://dx.doi.org/10.3406/galip.1998.2403.

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14

Mourre, Vincent, Jacques Jaubert, Marc Jarry, and Pierre Chalard. "Les industries lithiques." Gallia préhistoire 43, no. 1 (2001): 53–87. http://dx.doi.org/10.3406/galip.2001.2316.

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15

Salafudin, Salafudin. "Sumberdaya Alam Lithium Indonesia." Jurnal Rekayasa Hijau 5, no. 2 (2021): 178–87. http://dx.doi.org/10.26760/jrh.v5i2.178-187.

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ABSTRAKLithium adalah salah satu mineral yang mempunyai permintaan yang paling tinggi dalam Revolusi Industri Keempat. Indonesia yang kekayaan alam nikelnya besar, ingin menjadi negara penghasil baterai. Oleh karena itu, diperlukan investigasi sumber bahan baku utama lainnya dalam produksi baterai. Sumber daya bahan baku utama baterai adalah Lithium. Penyelidikan litium sebagai sumber bahan baku di Indonesia telah dilakukan melalui tinjauan pustaka. Sumber daya alam litium ditemukan di air laut, Brine, mineral, dan tanah liat. Endapan yang mengandung Mineral Lithium terdapat di beberapa tempat
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16

Forestier, Hubert, Heng Sophady, and Vincenzo Celiberti. "Le techno-complexe hoabinhien en Asie du Sud-est continentale : L’histoire d’un galet qui cache la forêt." Journal of Lithic Studies 4, no. 2 (2017): 305–49. http://dx.doi.org/10.2218/jls.v4i2.2545.

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La préhistoire du Sud-est asiatique se caractérise par un matériel lithique dont les chaînes opératoires restent encore peu connues ou mal décrites. Cette méconnaissance s’explique par l’éloignement géographique de ces régions tropicales vis à vis des problématiques préhistoriques occidentales développées depuis maintenant deux siècles. La préhistoire de l’Extrême-Orient est complexe, originale, surprenante parfois paradoxale car en marge des grandes lignées techniques connues ailleurs pour la période concernée, celle qui a vu l’avènement de l’Homme anatomiquement moderne. Cette préhistoire ré
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17

Forestier, Hubert, Michel Grenet, Antony Borel, and Vincenzo Celiberti. "Les productions lithiques de l’Archipel indonésien." Journal of Lithic Studies 4, no. 2 (2017): 231–303. http://dx.doi.org/10.2218/jls.v4i2.2544.

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Proposer une synthèse sur la préhistoire d’un archipel et de ses assemblages lithiques n’est pas chose facile, d’une part à cause de l’immensité de l’espace concerné mesurant 2 millions de km2, d’autre part du fait que la notion de Paléolithique y est difficilement applicable et notamment celles de « Paléolithique supérieur » ou d’Epipaléolithique-Mésolithique établies en Eurasie occidentale. L’Indonésie et ses myriades d’îles et îlots (environ 18000) s’inscrivent dans un rectangle 5000 km sur 2000 km de part et d’autre de l’équateur ce qui en fait le plus grand archipel du monde. Cette aire g
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18

Vialou, Águeda Vilhena. "Etude technologique des industries lithiques taillées du nord de Minas Gerais, Brésil – depuis le passage Pléistocène/Holocène jusqu’au contact – XVIIIème siècle." Revista do Museu de Arqueologia e Etnologia, no. 15-16 (December 14, 2006): 433. http://dx.doi.org/10.11606/issn.2448-1750.revmae.2006.89747.

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19

Puchta, Alexander, Jürgen Fleischer, Jessica Schmied, et al. "Industrie 4.0 in der Batteriezellproduktion/Systemic integration of Industry 4.0 in battery cell production – Industry 4.0 in battery cell production." wt Werkstattstechnik online 112, no. 07-08 (2022): 496–500. http://dx.doi.org/10.37544/1436-4980-2022-07-08-50.

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Die Anwendung von Industrie 4.0 in der Produktion von Lithium-Ionen-Batteriezellen ermöglicht es Unternehmen, eine höhere Produktqualität und globale Wettbewerbsfähigkeit zu erreichen. Die ganzheitliche Einführung von Digitalisierung und Industrie 4.0-Methoden in allen Bereichen der Produktion stellt jedoch derzeit eine große Herausforderung dar. Aus diesem Grund wurde eine Methodik entwickelt, die die Quantifizierung von Digitalisierung und Industrie 4.0 in der Batteriezellproduktion erlaubt und als Werkzeug zur systematischen Stärkung genutzt werden kann. The application of Industry 4.0 in t
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20

Melent'ev, G., E. Ovcharova, R. Shevchuk, V. Korotkiy, and N. Polikashina. "Lithium hydrothermalites: prospects and problems of industrial development." Proceedings of the Komi Science Centre of the Ural Division of the Russian Academy of Sciences, no. 5 (July 16, 2025): 65–73. https://doi.org/10.19110/1994-5655-2025-5-65-73.

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The article analyses the prospects and problems of industrial development of lithium hydrothermalites, represented by foreign and Russian deposits. The specifics of their industrial-genetic types, lithium content levels and the state of technologies for its extraction are considered. Attention is focused on the dependence of directions and rates of development of the study lithium deposits on the degree of the chemical-technological knowledge about these deposits, corporate interaction of investors and consumers of lithium products.
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21

Yuan, Jiehui, Zhihong Liu, Ting Zhou, Xiaoming Tang, Juan Yuan, and Wenli Yuan. "Sustainable Development of Lithium-Based New Energy in China from an Industry Chain Perspective: Risk Analysis and Policy Implications." Sustainability 15, no. 10 (2023): 7962. http://dx.doi.org/10.3390/su15107962.

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Lithium-based new energy is identified as a strategic emerging industry in many countries like China. The development of lithium-based new energy industries will play a crucial role in global clean energy transitions towards carbon neutrality. This paper establishes a multi-dimensional, multi-perspective, and achievable analysis framework to conduct a system analysis for determining the potential risks involved in the sustainable development of lithium-based new energy industries in China and other countries towards a carbon-neutral future. The results show that critical risk points including
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22

Yakovleva, Marina, Brian Fitch, and Jian Xia. "Industrial Perspectives on Innovation: Sustainability, Safety, Scalability, and Advanced Performance." ECS Meeting Abstracts MA2022-02, no. 3 (2022): 218. http://dx.doi.org/10.1149/ma2022-023218mtgabs.

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Industry continues to look forward to innovative and to sustainable solutions that can improve battery performance, safety, and manufacturing efficiency. Livent is looking forward to bringing LIOVIX™ to the market as a product to help meeting these growing requirements while opening pathways for the development of next generation battery technology. LIOVIX™, proprietary lithium metal product, is a unique printable formulation of lithium metal and other specialty materials that can improve the performance of lithium-ion batteries, reduce manufacturing costs, and enable the next generation of ba
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23

Paramitha, Tika, Endah Retno Dyartanti, Arif Jumari, Agus Purwanto, Adrian Nur, and Anatta Wahyu Budiman. "Peningkatan Kompetensi Siswa SMK Muhammadiyah 4 Surakarta mengenai Industri Baterai Lithium Ion." Equilibrium Journal of Chemical Engineering 6, no. 2 (2023): 163. http://dx.doi.org/10.20961/equilibrium.v6i2.66334.

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Sekolah Menengah Kejuruan (SMK) Muhammadiyah 4 Surakarta memiliki jurusan Kimia Industri yang mempersiapkan tenaga terampil di industri kimia untuk mendukung dalam pengembangan teknologi. Salah satu Industri Kimia yang berkembang saat ini adalah Industri Baterai Lithium Ion (LIB). LIB saat ini digunakan tidak hanya pada perangkat elektronik portabel, seperti komputer dan telepon seluler, tetapi juga untuk kendaraan listrik atau kendaraan &lt;em&gt;hybrid.&lt;/em&gt; Oleh karena itu, lulusan SMK dengan Program Keahlian Kimia Industri hendaknya menyiapkan lulusan yang mempunyai kompetensi di bid
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24

Edens, Christopher, Catherine Perlès, and Catherine Perles. "Les industries lithiques taillées de Franchthi (Argolide, Grèce) 1: Présentation générale et industries paléolithiques." American Journal of Archaeology 94, no. 3 (1990): 490. http://dx.doi.org/10.2307/505807.

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25

Das, Prodip K. "Battery Management in Electric Vehicles—Current Status and Future Trends." Batteries 10, no. 6 (2024): 174. http://dx.doi.org/10.3390/batteries10060174.

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Rechargeable batteries, particularly lithium-ion batteries (LiBs), have emerged as the cornerstone of modern energy storage technology, revolutionizing industries ranging from consumer electronics to transportation [...]
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26

Kavanagh, Laurence, Jerome Keohane, Guiomar Garcia Cabellos, Andrew Lloyd, and John Cleary. "Global Lithium Sources—Industrial Use and Future in the Electric Vehicle Industry: A Review." Resources 7, no. 3 (2018): 57. http://dx.doi.org/10.3390/resources7030057.

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Lithium is a key component in green energy storage technologies and is rapidly becoming a metal of crucial importance to the European Union. The different industrial uses of lithium are discussed in this review along with a compilation of the locations of the main geological sources of lithium. An emphasis is placed on lithium’s use in lithium ion batteries and their use in the electric vehicle industry. The electric vehicle market is driving new demand for lithium resources. The expected scale-up in this sector will put pressure on current lithium supplies. The European Union has a burgeoning
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27

Furestier, Robin, Mihai-Ştefan Florea, Laurence Manolakakis, Sylvie Philibert, Laurent Carozza, and Cristian Micu. "Les industries lithiques énéolithiques de la Dobroudja du Nord." Materiale şi cercetãri arheologice (Serie nouã) 13, no. 1 (2017): 213–26. http://dx.doi.org/10.3406/mcarh.2017.1059.

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28

Jeong, Eunsun, and Jai S. Mah. "The Role of the Government in the Development of the Rechargeable Battery Industry in Korea." Perspectives on Global Development and Technology 21, no. 2 (2022): 202–20. http://dx.doi.org/10.1163/15691497-12341625.

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Abstract This article discusses the role of the government in the development of the rechargeable battery, particularly the lithium-ion battery, industry in Korea. The Korean government aimed to promote the small-sized rechargeable batteries in the late 1990s and early 2000s. It began to emphasize support of the middle- to large-sized lithium-ion batteries in the early 2010s. The policy measures have comprised enhancing infrastructure such as human capital and establishment of a rechargeable battery testing center, increasing R&amp;D expenditure, and promoting the electric vehicle (EV) industr
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29

Yang, Qizheng. "Comparative Analysis of Lithium Battery Industries Between the United States and China." Journal of Education, Humanities and Social Sciences 42 (December 18, 2024): 1085–90. https://doi.org/10.54097/35mce049.

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This paper concentrates on a comprehensive assessment of the lithium battery industry in China and the United States, covering differences in policies, technologies, and market conditions analytically. Both nations are critical parts of the global energy transition, lithium batteries being major facilitators for the achievement of clean energy objectives. China has been mainly pushed to overtake the position of the world's largest lithium battery producer due to government-led initiatives, and aggressive policies, accompanied by a rapidly growing electric market. On the other hand, while the U
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30

Righi, Marco. "Clean Energy in the Industrial Machinery Market." Industrial Vehicle Technology International 28, no. 3 (2020): 55. http://dx.doi.org/10.12968/s1471-115x(23)70378-4.

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31

Yang, Xinxia, Yi Peng, Jia Hou, Yifan Liu, and Xian Jian. "A review for modified Li composite anode: Principle, preparation and challenge." Nanotechnology Reviews 9, no. 1 (2020): 1610–24. http://dx.doi.org/10.1515/ntrev-2020-0120.

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Abstract As the most common energy storage technology on the market, lithium-ion batteries are widely used in various industries and have a profound impact on our daily lives, with the characteristics of high voltage, high capacity, good safety performance, and long cycle life. Lithium metal was first used in the anode of lithium-ion batteries. However, the inherent growth of lithium dendrites and the instability of the SEI film limit the practical application of lithium metal materials. Despite this, lithium metal is still an ideal anode material to meet the growing demands for electronic equ
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32

Di, Yue Zhong, Shao Hu Tao, Nai Xiang Feng, and Zhi Guo Wang. "Semi-Industrial Scale Preliminary Test of Silicon Thermal Reduction Lithium with Internal Thermal Resistance Furnace." Advanced Materials Research 746 (August 2013): 215–19. http://dx.doi.org/10.4028/www.scientific.net/amr.746.215.

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With the development of vacuum technology and the demand of lithium increasing rapidly all over the world, vacuum thermal extraction lithium will be applied widely in future. A new internal thermal resistance furnace for lithium smelting was designed, which can be used for the thermal decomposition of Li2CO3 and reduction of Li2O. The production capacity is 7.5kg lithium per test. Semi-industrial scale preliminary test was researched in the internal thermal resistance furnace. The results show that the decomposition efficiency of lithium carbonate can be above 98%, the calcined product meets t
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33

Boyd, Tony, Clive Brereton, Jeremy Moulson, Warren Wolfs, and Luke GLynn. "Application of Industrial-Scale Lithium Sulphate Electrolysis in Battery Recycling." ECS Meeting Abstracts MA2023-02, no. 24 (2023): 1333. http://dx.doi.org/10.1149/ma2023-02241333mtgabs.

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As the world charges towards electrification and sustainable transportation, it is critical that the entire supply chain is equally sustainable. Industrial processes must be tailored towards circular processes in which emissions and effluents to the environment are minimized, if not eliminated altogether. When it comes to the production of battery grade lithium hydroxide monohydrate, a critical component of lithium ion batteries (LIBs), and the recovery of the lithium in spent LIBs. NORAM Electrolysis Systems Inc (NESI) has developed electrochemical technologies in which effluents are greatly
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34

Mityusheva, T. P., and O. Ye Amosova. "Industrial brines of the Khoreyver depression of the Pech ora plate." Vestnik of Geosciences 8 (2021): 27–45. http://dx.doi.org/10.19110/geov.2021.8.3.

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We studied areal distribution of the Khoreyver depression and strontium and lithium-rich iodine-bromine and iodine-boron industrial brines in the hydrogeological section. We presented the potential of the territory for practical use of industrial sodium chloride and calcium-sodium underground brines in the maps of distribution of bromine, iodine, boron and strontium-lithium iodinebromine and iodine-boric industrial brines within three Paleozoic calcareous aquifers (O2–S–D1; D3–C1; C–P1). Separate areas with lithium-strontium iodine - bromine and iodine-boric standard quality brines are designa
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35

Knapik, Ewa, Grzegorz Rotko, and Marta Marszałek. "Recovery of Lithium from Oilfield Brines—Current Achievements and Future Perspectives: A Mini Review." Energies 16, no. 18 (2023): 6628. http://dx.doi.org/10.3390/en16186628.

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In recent years there has been a significant increase in the demand for lithium all over the world. Lithium is widely used primarily in the production of batteries for electric vehicles and portable electronic devices, and in many other industries such as production of aluminum, ceramics, glass, polymers, greases, and pharmaceuticals. In order to maintain the balance between supply and demand for lithium on the global market, it is essential to search for alternative sources of this element. Therefore, efforts are being made to obtain lithium from unconventional sources, an example of which is
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36

Sheng, Tzu-Chun, Alvin Chang, Shu-Hui Lan, and Shih-Cheng Li. "Analysis of the Dividend Policy Decision-Making Mechanism of Chinese and Taiwanese Lithium Battery Industries." Mathematics 8, no. 10 (2020): 1689. http://dx.doi.org/10.3390/math8101689.

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This study mainly focuses on the mechanisms and influencing factors of formulating dividend policies in the Chinese and Taiwanese lithium battery industries. According to the relevant literature, enterprises should consider financial status, project operations, the decision preferences of their executives, and shareholder equity when drawing up dividend policies. This study first uses the Modified Delphi Approach to set up the hierarchy analysis structure, and then use the Fuzzy Analytical Hierarchy Process for the study method. From the empirical results, this study finds that there exist dif
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37

Fogaça, Emílio, and Márcio Alonso Lima. "L'abri du Boquete (Brésil) : les premières industries lithiques de l'holocène." Journal de la Société des Américanistes 77, no. 1 (1991): 111–23. http://dx.doi.org/10.3406/jsa.1991.1375.

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38

Locht, Jean-Luc. "Les industries lithiques d’âge éemien du site de Caours (Somme)." L'Anthropologie 125, no. 3 (2021): 102903. http://dx.doi.org/10.1016/j.anthro.2021.102903.

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39

Weiwen, Huang, and Zhang Pu. "Le contexte géologique des industries lithiques à bifaces en Chine." L'Anthropologie 114, no. 5 (2010): 519–24. http://dx.doi.org/10.1016/j.anthro.2010.09.001.

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40

Li, Ningning, Zhenjie Hao, Yaya Feng, et al. "Progress in Surface Engineering Techniques for Magnesium–Lithium-Based Alloys." Coatings 15, no. 5 (2025): 502. https://doi.org/10.3390/coatings15050502.

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Magnesium–lithium alloys, currently the lightest metallic structural materials, exhibit exceptional specific strength, superior damping capacity, and remarkable electromagnetic shielding properties. These characteristics endow them with significant potential for engineering applications in automotive, aerospace, satellite, and military industries. However, their poor corrosion resistance severely restricts practical implementation. This review systematically examines recent advances in surface engineering techniques for magnesium–lithium alloys, with a focus on corrosion protection strategies.
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41

Zhou, Guanyu. "Optimization strategy for metal lithium negative electrode interface in all-solid-state lithium batteries." E3S Web of Conferences 553 (2024): 01009. http://dx.doi.org/10.1051/e3sconf/202455301009.

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Lithium metal is a perfect anode material for lithium secondary batteries because of its low redox potential and high specific capacity. In the future, solid-state lithium batteries constructed with embedded lithium anodes, solid-state electrolytes, and lithium metal anodes are anticipated to power electric cars, robots, high-end electronics, aircraft, and other relevant technological industries. However, as a result of the uneven deposition and dissolution of lithium during the charging and discharging process, a large number of dendritic dendrites form on the lithium-electrolyte contact surf
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42

Park, Harang, and Jaehan Lee. "Electrochemical lithium recovery process via state-of-charge control (SoC) for efficient lithium recovery from concentrated seawater." Environmental Engineering Research 30, no. 3 (2024): 240440–0. https://doi.org/10.4491/eer.2024.440.

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With the increasing demand for lithium driven by its widespread use in various industries, researchers are exploring ways to expand the lithium supply. This study proposes an electrochemical lithium recovery (ELR) system using the state-of-charge (SoC) control for extracting lithium from the actual concentrated seawater from the salt manufacturing process. In cyclic stability tests where the 60% SoC level of the LiMn2O4(LMO) electrode was adjusted, the charge-discharge retention rate showed approximately two times higher performance compared to 100% SoC after 30 cycles. In particular, it was o
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43

Liger, Alain. "Projets d’exploitation de lithium en France et en Allemagne… des convergences possibles ou une compétition effrénée ?" Annales des Mines - Responsabilité et environnement N° 111, no. 3 (2023): 80–88. http://dx.doi.org/10.3917/re1.111.0080.

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Le lithium fait l’objet d’une forte demande au niveau mondial, sous la pression du développement de l’usage des batteries rechargeables ; il est classé métal stratégique par l’Europe, qui est totalement dépendante de producteurs extérieurs au continent. L’examen de projets d’extraction de lithium en France et en Allemagne montre un fort investissement industriel sur cet enjeu minier majeur dont le sort reste cependant dépendant de la poursuite des études, de l’acceptation des projets par les populations locales et des autorisations exigées par le droit minier de chaque pays.
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Shen, Chengcan. "Recovery of cathode material of abandoned lithium-ion battery: Comparison of methods and the recent situation of utilization of Chinese factories." Applied and Computational Engineering 70, no. 1 (2024): 1–7. http://dx.doi.org/10.54254/2755-2721/70/20240941.

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Lithium-ion batteries were successfully brought to the forefront of various industries more than 30 years ago, and today they play an important role in the portable power and electric vehicle industries. In the context of expanding markets and increasing industrial and domestic demand, the recycling of materials from batteries after their disposal has received some attention. However, lithium-ion batteries contain inactive chemical components that make recycling complex and expensive. Existing technologies, therefore, need to be analyzed and improved. This paper uses thesis research to summari
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R, Rishabh. "IoT- Based Battery Management for Enhanced Sustainability." International Journal for Research in Applied Science and Engineering Technology 11, no. 5 (2023): 7236–40. http://dx.doi.org/10.22214/ijraset.2023.53421.

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Abstract: The Usage of Lithium Batteries grows every day, especially in the field of Automobiles. The Fire Safety and increasing E-Waste due to Lithium batteries becomes a huge concern for the Industries and Governments too. Governments from various countries come up with multiple policies to ensure the safety protocols and proper recycling of used Lithium resources. This Paper presents a technical tool to achieve the goal of maximum safety and efficient utilization of Lithium resources. This is achieved using data generated by the battery during its usage. Every Lithium battery comes with a B
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Maslova, Marina, Vladimir Ivanenko, Polina Evstropova, Natalia Mudruk, and Lidia Gerasimova. "Investigation on Purification of Saturated LiNO3 Solution Using Titanium Phosphate Ion Exchanger: Kinetics Study." International Journal of Molecular Sciences 23, no. 21 (2022): 13416. http://dx.doi.org/10.3390/ijms232113416.

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Lithium compounds are of high interest to many industries. The presence of undesirable impurities in Li precursors leads to uncontrolled change in the functional properties of final compounds. Therefore, the development of reliable methods for lithium salt purification is considered a key factor for their application in various industries. This work focuses on the application of a titanium phosphate ion exchanger (Li-TiOP) toward Cu2+, Co2+, Mn2+, Ni2+, and Cr3+ ions in the purification of a saturated LiNO3 solution. The sorption kinetics of the selected ions, considering external and internal
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Zhang, Xi, Xudong Zheng, Tongtong Xu, Yuzhe Zhang, Guomeng Li, and Zhongyu Li. "Synthesis of High Specific Surface Lithium-Ion Sieve Templated by Bacterial Cellulose for Selective Adsorption of Li+." Molecules 28, no. 7 (2023): 3191. http://dx.doi.org/10.3390/molecules28073191.

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In recent years, with the development of batteries, ceramics, glass and other industries, the demand for lithium has increased rapidly. Due to the rich lithium resources in seawater and salt-lake brine, the question of how to selectively adsorb and separate lithium ions from such brine has attracted the attention and research of many scholars. The Li-ion sieve stands out from other methods thanks to its excellent special adsorption and separation performance. In this paper, mesoporous titanium dioxide and lithium hydroxide were prepared by hydrothermal reaction using bacterial cellulose as a b
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Liao, Zhiwei, Dongze Lv, Qiyun Hu, and Xiang Zhang. "Review on Aging Risk Assessment and Life Prediction Technology of Lithium Energy Storage Batteries." Energies 17, no. 15 (2024): 3668. http://dx.doi.org/10.3390/en17153668.

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In response to the dual carbon policy, the proportion of clean energy power generation is increasing in the power system. Energy storage technology and related industries have also developed rapidly. However, the life-attenuation and safety problems faced by energy storage lithium batteries are becoming more and more serious. In order to clarify the aging evolution process of lithium batteries and solve the optimization problem of energy storage systems, we need to dig deeply into the mechanism of the accelerated aging rate inside and outside the lithium ion from the perspective of the safety
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Kutsch, Pete, Bruce Wattenbach, and Marc Lanigan. "Advancing Deep Learning Techniques for Accurate Identification of Battery Defects." Journal of Computing and Electronic Information Management 13, no. 2 (2024): 42–46. http://dx.doi.org/10.54097/oastipa3.

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The increasing reliance on lithium-ion batteries in various industries, including electric vehicles and portable electronics, necessitates efficient and reliable defect detection methods. Traditional inspection techniques often fall short in accuracy and speed, paving the way for advanced methods such as deep learning. This paper explores the application of deep learning techniques in detecting defects in lithium-ion batteries, providing a comprehensive overview of the methodologies, challenges, and future directions. Our study demonstrates that deep learning models can achieve up to 98% accur
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Marausna, Gaguk, Dhawysulthan M. A, Eric Leonardo Sitepu, and Muhamad Bayu Adi Kusuma. "Eksperimen Heat Transfer pada Minichannel Baterai Pesawat Listrik dengan Fluida Etilen Glikol-Air." Energy - Jurnal Ilmiah Ilmu-Ilmu Teknik 12, no. 1 (2022): 1–5. http://dx.doi.org/10.51747/energy.v12i1.1021.

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Industri aviasi telah mengubah industri transportasi massal maupun privat, sehingga membuat pesawat terbang semakin banyak variasinya, jenis transportasi udara ini memiliki pengaruh buruk yang sangat tinggi terhadap atmosfer karena konsumsi bahan bakar yang sangat tinggi dan membuang polutan yang sangat banyak sehingga pesawat untuk masa depan akan mengarah ke 2 tipe pesawat yaitu Hybrid-Electric Aircraft dan All-Electric Aircraft. Keduanya memiliki kesamaan berpenggerak tenaga listrik, tetapi terdapat kelemahan pada transportasi ini. Yaitu pada batterai yang digunakan. Pada umumnya baterai ya
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