ChemX Materials Ltd. update Shareholders on its newly secured integrated High Purity Alumina (HPA) Production facility in Perth, Western Australia. ChemX Materials is pleased to advise that its dedicated HPA production facility in Perth, Western Australia is now commissioned. The Company secured a 1200sqm warehouse facility with adjacent 1200sqm hardstand external space which is capable of housing both the HPA Micro Plant and HiPurA HPA Pilot Plant to be constructed in CY2023.

HPA is a high value critical material used in lithium-ion batteries as a coated ceramic separator. Placed between the anode and the cathode, the ceramic separator provides increased thermal insulation for improved safety, charging and performance. The Company has recently completed relocation reassembly of the Micro Plant and installed a demineralised water system to ensure high purity process outcomes.

The Microplant will now move through carefully planned staged re-commissioning, aiming to achieve name plate production of 5kg/day HPA at 4N (99.99%) by late 2022. The Micro Plant will be run with internal optimisation and samples despatched to external laboratories for verification analysis on rolling cycles to feed data for final calibration of the purification steps to produce 4N HPA. Following steady state production of sufficient 4N HPA, ChemX will begin optimisation of the process to 5N (99.999%) HPA.

5N HPA is used to produce Synthetic Sapphire, a high value material with applications, in semiconductor manufacturing, advanced optical lenses, LED lights, and medical devices. The HPA Micro Plant is a continuous process based on the laboratory scale flow sheet which produced 4N HPA as detailed in the Company's Prospectus. Upon successful production of 4N HPA, the Company will be able to begin submitting samples to potential customers for early-stage qualification testwork.

The HiPurA® HPA processing design is a novel technology for which ChemX has applied for patent protection in July 2022. The technology is independent of mine production and uses a chemical feedstock sourced from Australian suppliers. The system removes the need for complex and expensive off-gas reagent and recovery.

Together these advantages dramatically lower the capital and operating costs of the HiPurA® design in comparison with traditional mining dependent feedstocks. ChemX recently confirmed the potential of the HiPurA® HPA technology, following a prefeasibility study (PFS) completed by Primero Group, which confirmed the metallurgical flow sheet design, mass and energy balances with no fatal flaws identified. The 50tpa Pilot Plant was costed at $2.5m (-/+ 30%) in line with initial estimates in the Company's Prospectus.

The HiPurA® HPA technology is scalable and modular allowing modifications to be made as per customer requirements and for the production of a variety of high purity aluminous based products. Co-location of the plants allows for further R&D with Pilot Plant output to be fed into the micro plant as a high purity feedstock (4N) to produce potentially new high value aluminous materials (5N). Following detailed design work and Pilot Plant construction which is expected to be completed in calendar year 2023.

The Company will be able to supply increased quantities of HPA for final stages of product qualification with customers in the lithium-ion battery supply chain.