Resolution Minerals Ltd. announced 100% interest in the new strategic George Silica Sand & Uranium Project. Resolution is focussed on building a portfolio of quality critical energy metals projects with commodities required to meet future global demands for a carbon-neutral economy. RML holds multiple Australian projects prospective for copper, cobalt, manganese, lead, zinc, uranium and holds 5% stake in Midwest Lithium - all commodities in high demand and critical for the transition to a carbon-neutral economy.

The addition of the George Project, prospective for both High Purity Silica and uranium is well aligned with this strategy. The George Project is prospective for paleo-channel style uranium deposits, also known as Kazakhstan style roll-front mineralisation. Almost half of the worlds annual uranium production comes from Kazakhstan using in-situ recovery, a low-impact low-cost mining technique.

This style of deposit is demonstrated to the east of the George Project in the well-recognised Frome Embayment with existing uranium mines such as Beverly and Four-Mile. The source of uranium, the Mt Painter Inlier, lies in-between the George Project and the Frome Embayment with uranium dispersing both to the east and the west for potentially hundreds of kilometres as it does in Kazakhstan. Analysis of the uranium potential will be undertaken in parallel with the HPSS Scoping Study.

The George Project is positioned within the Eromanga Basin, which contains Cretaceous shales, siltstones, sandstones and non-marine coal measures, which are unconformably overlain, by Tertiary Sediments of the Lake Eyre Basin, host to quartz sands units within the Eyre Formation. Silica Sands were unexpectedly encountered on the George Project by Adavale Resources, whilst exploring for sedimentary hosted uranium and phosphate in 2009. B.R. Senior & Associates Pty Ltd. completed a review of D-6 and reported 0.1-0.5mm grain sizing and XRF analysis identifying 0.11% Fe contamination followed by Zr, Sr, Zn, Mn.

Average contaminants total 0.13%, making SiO2 grade 99.87% over 34m from 2m. Further laboratory analysis is warranted as other clay mineral contaminants, which weren't detected by XRF analysis, such as Aluminum (Al), may be present. According to petrology reports, the sand grains are very fine to fine grain, polished, transparent, well-rounded and form part of the Eyre Formation of early-Tertiary age.

A series of RAB drill holes were completed across the Etadunna Silica Sands Prospect with the horizon of interest reporting SiO2 assays between 97% and 99%, which could be upgraded by visual screening and washing. Some concern was raised that downhole contamination had occurred during RAB sampling leading to downgrading in the purity of the sand. Consequently, three RC holes were completed as twin holes to three of the RAB holes.

Assays from the RC holes returned improved SiO2 quality with higher values exceeding 99% SiO2. Petrological analysis of drill samples from RC holes indicate the SiO2 component can be upgraded from an average of 98.4% through removal of interstitial clay and iron oxide grains to 99.3%. According to historical geological consulting reports by B.R. Senior & Associates Pty Ltd, the known size of the sand occurrence is 1km in length, 1km in width and up to 34m in thickness and remains open in all directions and open at depth.