Lomiko Metals Inc. announced the eighth and final round of analytical results from the infill and extension exploration drill program at its La Loutre Graphite property, located approximately 180 kilometres northwest of Montréal in the Laurentian region of Québec. The La Loutre graphite project site is located within the Kitigan Zibi Anishinabeg (KZA) First Nations territory. Highlights: Assay results from the third and last batch of 10 of 26 holes drilled at Battery Zone: Consistent, near surface graphite mineralization along the southwest margin of the Battery Zone; Strong graphite values and significant widths in all 10 drill holes; Best interval of 10.37% Cg over 64.0m from 27.0 to 91.0m in hole LL-22-074 including 14.15% Cg over 14.5m from 45.0 to 90.0m; Second best interval of 11.42% Cg over 26.5m from 48.0 to 74.5m including 15.01% Cg over 13.5 from 51.0 to 64.5m and 17.16% Cg over 5.5m from 69.0 to 74.5m in hole LL-22-073; Battery zone remains open on the south end.

The drilling was supervised by Québec-based, independent geological consultant Breakaway Exploration Management Inc. and was operated under ECOLOGO requirements and compliance protocols, as Lomiko is ECOLOGO certified. The drill program at La Loutre was initiated on May 15, 2022, with the goal to further define the deposit, provide the data needed to increase confidence in the mineral resource and build on the results of the positive Preliminary Economic Assessment (PEA) for the La Loutre project as announced in the Company's July 29, 2021 press release. Lomiko has retained InnovExplo Inc, a Quebec-based independent consulting firm specializing in geology, resource estimation, mining engineering and sustainable development, to prepare an updated NI 43-101 compliant resource estimate for the La Loutre project following the completion of the 2022 drill program.

The assay results reported in this press release are for the 10 holes drilled at the south end of the Battery Zone. These holes were drilled to confirm results of previous drilling and provide better detail in this part of the Battery deposit. Significant intervals of graphite mineralization were intersected in all 10 holes.

The best intersection was 10.37% graphite (% Cg) over 64.0m from 27.0 to 91.0m in hole LL-22-074 including 14.15% Cg over 45m from 45.0 to 90.0m. The second-best interval was 11.42% Cg over 26.5m from 48.0 to 74.5m including 15.01% Cg over 13.5 from 51.0 to 64.5m and 17.16% Cg over 5.5m from 69.0 to 74.5 in hole LL-22-073. These two holes as well as holes LL-22-077, LL-22--078 and LL-22--079 form the southernmost extent of the Battery Zone.

The robust dimensions and tenor of the strong intervals intersected in these holes suggests that the intervals continue further to the southeast, and that the Battery zone remains open in that direction. Generally, it was noted that the graphite mineralization intersected in the Battery zone is visually more coarse-grained than the graphite mineralization intersected at the recently drilled EV Zone. QAQC and Analytical Procedures: The drill core was logged and marked for sampling by a professional geologist.

All the core was photographed as part of the logging procedure. Core samples were collected by splitting each sample interval in half lengthwise with a hydraulic core splitter. One half of the interval was returned to the core box, and the other half was placed in a plastic bag with a tag.

The tag number was marked in indelible ink on the outside of the bag, and the bag was sealed with a plastic tie-wrap. One certified reference material standard and one blank were included in each batch of 21 samples. For shipping, samples were placed in rice bags that were individually sealed with numbered, tamper-proof security tags.

The rice bags were then placed on wooden pallets, secured with plastic wrapping, and delivered by truck to Manitoulin Transport Inc. for shipping to Activation Laboratories Ltd. (Actlabs) in Ancaster, Ontario. At Actlabs the samples were crushed to 80% passing 2mm and then riffle split to a 250g sub-sample that was pulverized to pulp 95% passing 105µm (Actlabs Code RX1). The sample pulps were then analyzed for graphitic carbon “Cg”) by mild hydrochloric acid digestion followed by combustion in an infrared induction furnace (Actlabs Code 8Cg).

Actlabs is accredited under ISO 9001:2015 registration and is independent of the Company.