The materials provided on this page comprise links to third party websites and third party analyses, commentary and/or recommendations. These materials are provided for research purposes and do not respresent an endoresement by ElectraLith.
RFC Ambrian
November 2023
Lithium Projects Review
Deloitte
AUGUST 2023
DLE can shrink land use by nearly 95%. It can also reduce water use and cut production time to hours or days from the months or years required for evaporation, while boosting lithium recovery rates from 40%-60% to 70%-90% or higher.
US DEPARTMENT OF ENERGY
JULY 2023
Lithium…is classified as near critical in the short and medium term
Goldman sachs
June 2023
Direct Lithium Extraction Poised to Boost Production for Batteries
mckinsey
June 2023
Australia’s lithium hydroxide market may generate up to $10 billion per year in additional revenue for market participants by 2030—with the potential to create jobs, diversify Australia’s raw-materials industry, and support Australia’s push toward green energy.
The University of Texas at Austin et al
June 2023
Controls on Lithium Content of Oilfield Waters in Texas and Neighboring States
Goldman sachs
April 2023
DLE: A potential game changing technology
mckinsey
April 2023
Fueling the global EV revolution
US Geological Survey
January 2023
LUX Research
September 2022
The Opportunity in Direct Lithium Extraction
Science Direct - Energy, greenhouse gas, and water life cycle analysis
November 2021
Energy, greenhouse gas, and water life cycle analysis of lithium carbonate and lithium hydroxide monohydrate from brine and ore resources and their use in lithium ion battery cathodes and lithium ion batteries
SCience Direct - Electrodialysis description of Principles
April 2010
Electrodialysis is a mature process which is applied since more than 50 years on a large industrial scale for the production of potable water from brackish water sources.