Add to ORKGFast lithium isolation from water partly containing lithium ions would be an improvement over the current method of obtaining lithium in lithium mining water operations. The aminimide functional group can be used to selectively bind to lithium cations to extract lithium from brine. To characterize this uptake, the concentration of water containing lithium was measured with atomic absorption spectroscopy before and after the solution has been exposed to a polymer with the aminimide functional group. Three different polymers were used: trimethyl EGDM polymer, trimethyl TMPTA polymer, and the triethyl TMPTA polymer. Of the three, the trimethyl TMPTA polymer seemed to perform the best
Lithium is an essential element for today’s high-performance batteries. Brine resources contain most...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
The paper deals with extraction of lithium by means of two capacitive deionization systems: one comp...
Fast lithium isolation from water partly containing lithium ions would be an improvement over the cu...
An aminimide is a zwitterionic group containing a cationic nitrogen bonded to an anionic nitrogen. T...
International audienceThe recovery of lithium from brines is a major field of study with an increase...
Lithium is becoming increasingly important due to its essential role in lithium-ion batteries. Over ...
© 2016 Elsevier B.V. Loss of organic extraction in membrane extraction process could be avoided by u...
Lithium, highly demanded for its use in the battery industry, among other applications, has become a...
Lithium, for battery use, is in demand globally. Lithium recovery usually relies on brines. In some ...
Lithium recovery from alkaline brine was carried out by solvent extraction (SX) using a hydroxyl-fun...
A green liquid-liquid extraction (LLE) system was developed for the recovery of lithium (Li+) from s...
Lithium is an essential metal for our society. Notably, increasing energy storage system will necess...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
© 2017 The Royal Society of Chemistry. Chinese salt-lake brine is mainly of the magnesium sulfate su...
Lithium is an essential element for today’s high-performance batteries. Brine resources contain most...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
The paper deals with extraction of lithium by means of two capacitive deionization systems: one comp...
Fast lithium isolation from water partly containing lithium ions would be an improvement over the cu...
An aminimide is a zwitterionic group containing a cationic nitrogen bonded to an anionic nitrogen. T...
International audienceThe recovery of lithium from brines is a major field of study with an increase...
Lithium is becoming increasingly important due to its essential role in lithium-ion batteries. Over ...
© 2016 Elsevier B.V. Loss of organic extraction in membrane extraction process could be avoided by u...
Lithium, highly demanded for its use in the battery industry, among other applications, has become a...
Lithium, for battery use, is in demand globally. Lithium recovery usually relies on brines. In some ...
Lithium recovery from alkaline brine was carried out by solvent extraction (SX) using a hydroxyl-fun...
A green liquid-liquid extraction (LLE) system was developed for the recovery of lithium (Li+) from s...
Lithium is an essential metal for our society. Notably, increasing energy storage system will necess...
Giga factories are being built around the world to meet the growing demand for lithium batteries – b...
© 2017 The Royal Society of Chemistry. Chinese salt-lake brine is mainly of the magnesium sulfate su...
Lithium is an essential element for today’s high-performance batteries. Brine resources contain most...
Chinese salt-lake brine is mainly of the magnesium sulfate subtype with a high Mg/Li ratio. Mining l...
The paper deals with extraction of lithium by means of two capacitive deionization systems: one comp...