M. Traore
9 Papers
M. Traore is an academic researcher. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 3, co-authored 8 publications.
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Papers
Research progress of rare earth separation methods and technologies
M. Traore,Aijun Gong,Yiwen Wang,Lina Qiu,Yuzhen Bai,Weiyu Zhao,Yang Liu,Yi Ting Chen,Yang Liu,Huilin Wu,Shuli Li,Yueyi You +11 more
TL;DR: In this paper , the authors reviewed advances in rare earth separation methods and techniques to guide and recommend the best extractants, depending on leaching conditions and the final target product, and evaluated past and current trends in these methods and technical extractants and identified their strengths and weaknesses.
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Research progress on the content and distribution of rare earth elements in rivers and lakes in China.
TL;DR: Wang et al. as mentioned in this paper reviewed the content and distribution of rare earth elements (REE) in rivers and lakes in China based on the online literature and concluded that mining tailings were the primary cause of REE pollution in sediments, and industrial and agricultural activities are mainly responsible for water contamination.
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Ìtàkúròso: Exploiting Cross-Lingual Transferability for Natural Language Generation of Dialogues in Low-Resource, African Languages
Tosin P. Adewumi,Mofe Adeyemi,Aremu Anuoluwapo,Bukola Peters,Happy Buzaaba,Oyerinde Samuel,Amina Mardiyyah Rufai,Benjamin Olusola Ajibade,Tajudeen Gwadabe,M. Traore,Tunde Ajayi,Shamsuddeen Hassan Muhammad,A. D. Baruwa,Paul Owoicho,Tolúlope' Ògúnremí,Phylis Ngigi,Orevaoghene Ahia,Ruqayya Nasir,Foteini Liwicki,Marcus Liwicki +19 more
TL;DR: The results show that the hypothesis that deep monolingual models learn some abstractions that generalise across languages holds, and demon-strating the cross-lingual transferability hypothesis for dialogue systems.
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Assessment of rare earth element variations in five water systems in Beijing: Distribution, geochemical features, and fractionation patterns.
M. Traore,Aijun Gong,Yiwen Wang,Yang Liu,Lina Qiu,Yuli Zhang,Yueyi You,Yuzhen Bai,Ge Gao,Mariame Traore,Mahamat Abderamane Hassan +10 more
TL;DR: This study assesses rare earth element (REE) variations in Beijing's water systems, finding high concentrations in the Beiyun River, with LREEs dominating and positive Ce and Eu anomalies present, suggesting geological and anthropogenic sources.