[HTML][HTML] Groundwater in sedimentary basins as potential lithium resource: a global prospective study
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study
E Dugamin, A Richard, M Cathelineau, MC Boiron… - Scientific Reports, 2021 - hal.science
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study
EJM Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - ui.adsabs.harvard.edu
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
[PDF][PDF] Groundwater in sedimentary basins as potential lithium resource: a global prospective study
EJM Dugamin1Ε, A Richard, M Cathelineau… - Scientific …, 2021 - researchgate.net
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard‑rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard‑rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study.
EJM Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - search.ebscohost.com
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study
E Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - hal.univ-lorraine.fr
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study
EJM Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - pubmed.ncbi.nlm.nih.gov
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study.
EJM Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - europepmc.org
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
Groundwater in sedimentary basins as potential lithium resource: a global prospective study.
EJM Dugamin, A Richard, M Cathelineau, MC Boiron… - 2021 - cabidigitallibrary.org
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
[HTML][HTML] Groundwater in sedimentary basins as potential lithium resource: a global prospective study
EJM Dugamin, A Richard, M Cathelineau… - Scientific …, 2021 - ncbi.nlm.nih.gov
Electric cars will require to increase the production of lithium dramatically (up to 2 Mtons
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …
lithium equivalent carbonate per year by 2030). However, conventional hard-rock and salar …