Add to ORKGThe demand of lithium batteries is projected to almost double by the year 2025, between big consumers such as Panasonic and Tesla. Most of the lithium produced for batteries is done so through open pit mining and extraction from salt-lake brines. A new method to selectively extract lithium from brines uses sorbents. This project focused on synthesizing high surface area nanoparticle lithium-aluminum layered double hydroxide chloride sorbent using nanoparticle precursors, gibbsite. SEM analysis of the reactants and products provides early evidence that this is a viable synthetic path
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
Lithium extraction from salt lake brines is one of the most important pathways for obtaining Li-rela...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
The significance of being able to extract lithium from brine at an efficient rate is critical to the...
Increasing world demand for lithium is driving innovation in lithium-ion extraction. Current methods...
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...
© 2017 The Royal Society of Chemistry. Chinese salt-lake brine is mainly of the magnesium sulfate su...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium is an essential metal for our society. Notably, increasing energy storage system will necess...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
Demand for lithium is growing rapidly as its use increases in a variety of applications such as rech...
The demand for lithium has risen steadily in the last few decades because of the increased use of re...
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
Lithium extraction from salt lake brines is one of the most important pathways for obtaining Li-rela...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
The significance of being able to extract lithium from brine at an efficient rate is critical to the...
Increasing world demand for lithium is driving innovation in lithium-ion extraction. Current methods...
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...
© 2017 The Royal Society of Chemistry. Chinese salt-lake brine is mainly of the magnesium sulfate su...
Lithium is the principal component of high-energy-density batteries and is a critical material neces...
Lithium is an essential metal for our society. Notably, increasing energy storage system will necess...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
Demand for lithium is growing rapidly as its use increases in a variety of applications such as rech...
The demand for lithium has risen steadily in the last few decades because of the increased use of re...
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
The project implements a novel approach to extract lithium from a geothermal brine with minimal wate...
Lithium extraction from salt lake brines is one of the most important pathways for obtaining Li-rela...