© 2017 The Royal Society of Chemistry. Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining lithium from Chinese salt-lake brine has been a decades-long technical challenge. The pros and cons of various technologies are briefly discussed. Chemical extraction has been the most important technology for the recovery of lithium from Chinese salt-lake brine with a high Mg/Li ratio. Several other innovative technologies, including lithium ion sieves, membrane separation, and electro-electrodialysis, have also emerged as potential options
Efficient extraction of Li from brine at a low cost is becoming a key technology to solve energy and...
Lithium is a vital raw material used for a wide range of applications, such as the fabrication of gl...
© 2020 Elsevier Ltd The global demand of lithium is rising steadily, and many industrially advanced ...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
International audienceThe recovery of minerals from saline waters has been practiced since the antiq...
International audienceThe recovery of minerals from saline waters has been practiced since the antiq...
Lithium extraction from salt lake brine with a high mass ratio of Mg/Li by counter-current method us...
Demand for lithium is growing rapidly as its use increases in a variety of applications such as rech...
Lithium-brine is an important potential source of lithium. Much research and investigation has been ...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
The electrification of our world is driving a strong increase in demand for lithium. Energy storage ...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium extraction from salt lake brines is one of the most important pathways for obtaining Li-rela...
Efficient extraction of Li from brine at a low cost is becoming a key technology to solve energy and...
Lithium is a vital raw material used for a wide range of applications, such as the fabrication of gl...
© 2020 Elsevier Ltd The global demand of lithium is rising steadily, and many industrially advanced ...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
International audienceThe recovery of minerals from saline waters has been practiced since the antiq...
International audienceThe recovery of minerals from saline waters has been practiced since the antiq...
Lithium extraction from salt lake brine with a high mass ratio of Mg/Li by counter-current method us...
Demand for lithium is growing rapidly as its use increases in a variety of applications such as rech...
Lithium-brine is an important potential source of lithium. Much research and investigation has been ...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
The electrification of our world is driving a strong increase in demand for lithium. Energy storage ...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium extraction from salt lake brines is one of the most important pathways for obtaining Li-rela...
Efficient extraction of Li from brine at a low cost is becoming a key technology to solve energy and...
Lithium is a vital raw material used for a wide range of applications, such as the fabrication of gl...
© 2020 Elsevier Ltd The global demand of lithium is rising steadily, and many industrially advanced ...