October 3, 2023

Mid Designer

Breakaway from the pack

Max Power Advances Direct Lithium Extraction (DLE)

VANCOUVER, British Columbia, Aug. 21, 2023 (World NEWSWIRE) — MAX Energy Mining Corp. (CSE: MAXX OTC: MAXXF FSE: 89N) (“MAX Power” or the “Business”) is happy to report significant early development in its co-operative research and improvement agreement (CRADA) with Lawrence Berkeley National Laboratory (Berkeley Lab, LBNL), a California-based mostly U.S. Department of Strength laboratory managed by the College of California, to produce state-of-the-artwork direct lithium extraction (DLE) systems for brine sources (refer to May well 15, 2023 news release).

Dr. Brett Helms and Dr. Michael Whittaker, two pre-eminent American exploration experts at Berkeley Lab performing in collaboration with MAX Power, are major probable groundbreaking technologies development targeted on novel pre-treatment method methods and a membrane-primarily based tactic to lithium extraction from a numerous assortment of brine means in the United States and Canada (see online video interview inbound links with Helms and Whittaker incorporated in this information release). Simultaneously, MAX Energy is advancing a opportunity district- scale lithium brine/claystone project at the Willcox Playa in Arizona, southeast of Phoenix.

MAX Electric power and LBNL are incorporating modern solutions and novel resources into the DLE course of action to assist unlock lessen quality and hard brine resources, decrease production charges, and make it possible for for higher throughput as an effective choice to current strategies.


  • The know-how tactic is focussed on a two-stage DLE approach that combines omnisolute pre-treatment method with permselective extraction utilizing novel polymer membranes
  • The pre-treatment method methods require electrokinetic control about a variety of inputs. The aim is to allow for for a varied brine pre-treatment for a large wide variety of source compositions
  • The venture is utilizing new polymer membranes that characteristic ion-solvation cages to allow permselective transport of ions at a substantial amount to extract lithium from pre-addressed brine.

Dr. Helms, co-founder of two deep tech Bay Location start out-ups and award winner of the 2022 Environment Products Forum’s start out-up problem, said, “A key to our good results at this phase comes from the polymers having the capacity to passively and selectively concentrate lithium. We see substantial opportunities for the membrane-centered approach we’re building to provide benefits more than existing ways, in particular increased throughput with regard to quantity. This is specifically significant for brine means, where the volume of lithium may be minimal.”

Mr. Rav Mlait, MAX Energy CEO, commented: “Our partnership with Berkeley Lab has permitted MAX Energy to create new procedures in the promptly rising engineering side of the booming lithium sector. Lithium manufacturing from DLE is envisioned to increase 12-fold by 2032, accounting for about 15% of total source, according to Benchmark Mineral Intelligence. Lithium extraction from battery recycling also has excellent probable. With a lithium asset in Arizona, a lithium extraction technologies part in California, and progressively enjoyable really hard rock lithium discovery options in Quebec, MAX Energy has carved out a market for itself in this expanding sector.”

Movie Interview – Dr. Brett Helms

Dr. Helms’ investigate application at Berkeley Lab is devoted to supplies discovery and improvement to resolve excellent worries in strength and sustainability, including membranes for efficient ion separations relevant to useful resource extraction, refining, and circularity. He is co-founder of Bay Place commence-ups Sepion Technologies and Cyklos Elements. At Cyklos, his award-successful innovations in PDK circularity have been featured in print, radio, television, on the website. Dr. Helms is a Kavli Fellow (2019) and co-inventor on more that 30 patents on performance polymers. He is deeply dedicated to fixing complications in vitality and sustainability by way of the improvement of greater components and reduced-carbon producing procedures.

Connection to interview: https://vimeo.com/855794138?share=copy

Video clip Job interview – Dr. Michael Whittaker

Dr. Whittaker is a investigation scientist in the Electricity Geoscience and Supplies Science Divisions at Berkeley Lab. He is also co-founder and Director of the Lithium Resource Study and Innovation Centre (LIRRIC) (https://lirric.lbl.gov/). Berkeley Lab recognized LIRRIC to electric power lithium innovation and tutorial study and development into lithium extraction systems so that science breakthroughs guide to the greatest financial and environmental advantages. He is Principal Investigator of the Minerals for Vitality Storage (MINES) Task, and Team Leader of the Dwelling Minerals Workforce (https://livingmineral.lbl.gov/).

Dr. Michael Whittaker

Hyperlink to job interview: https://vimeo.com/855784644/e2e4c97a8c?share=duplicate

About MAX Energy

MAX Ability is a dynamic exploration stage useful resource corporation focusing on domestic lithium assets to advance North America’s renewable strength potential customers. MAX has also entered into a cooperative investigate and advancement settlement with the College of California Lawrence Berkeley Countrywide Laboratory (LBNL) to produce condition-of-the-art immediate lithium extraction (DLE) technologies for brine methods.

Make contact with: [email protected]

MarketSmart Communications at 877-261-4466.

Ahead-On the lookout Assertion Cautions

Neither the Canadian Securities Exchange nor its Regulation Services Provider, (as the term is described in the ‎Policies of the Canadian Securities Exchange) accepts accountability for the adequacy or precision of this ‎release. This press release includes selected “forward-on the lookout facts” and “forward-on the lookout ‎statements” (collectively “ahead-seeking statements”) in just the meaning of relevant Canadian ‎securities legislation. All statements, other than statements of historical simple fact, involved herein, devoid of ‎limitation, statements relating to the potential running or monetary general performance of the Firm, are ‎forward-on the lookout statements. Ahead-on the lookout statements are usually, but not constantly, identified by ‎words these types of as “expects”, “anticipates”, “believes”, “intends”, “estimates”, “possible”, “attainable”, and ‎similar expressions, or statements that activities, problems, or success “will”, “may”, “could”, or “must” ‎occur or be reached. Ahead-hunting statements in this push launch relate to, between other issues: ‎statements relating to the CRADA, and any distinct results thereof. Real long run results may perhaps vary materially. There can be no assurance that ‎such statements will verify to be precise, and real success and long term activities could vary materially ‎from these anticipated in this sort of statements. Forward wanting statements replicate the beliefs, views and ‎projections on the date the statements are built and are based mostly upon a number of assumptions and ‎estimates that, whilst deemed acceptable by the respective events, are inherently subject to significant ‎business, technological, financial, and competitive uncertainties and contingencies. Several variables, the two ‎known and unknown, could trigger genuine results, functionality or achievements to be materially distinctive ‎from the effects, functionality or achievements that are or may be expressed or implied by these types of forward-‎looking statements and the functions have manufactured assumptions and estimates primarily based on or relevant to a lot of of ‎these things. Readers need to not area undue reliance on the ahead-searching ‎statements and information and facts contained in this news release concerning these times. Apart from as needed by ‎law, the Company does not believe any obligation to update the forward-hunting statements of beliefs, ‎opinions, projections, or other components, should they change, apart from as expected by regulation.‎

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