Stallion Uranium Corp. announced that it has encountered anomalous radioactivity in the first completed hole of the Company's maiden drill program on its 100% owned Coffer Project in the prolific Southwestern Athabasca Basin in Saskatchewan, Canada. Highlights: Hole CF24-001 encountered anomalous radioactivity near the unconformity with a peak of 1,540cps (Counts per Second) in a 4.2m radioactive interval including 0.3m at 1,322 cps.

Hole CF24-001 encountered anomalies in the basement of 262 cps over 4m. Hole CF24-001 hit the unconformity at 762.6m and completed at a depth of 829.2m. Highly prospective geology encountered.

Stallion holds a 100% ownership of the project. CF24-002 was drilled targeting a conductive anomaly along the eastern edge of a gravity low anomaly. The drill hole was successful in encountering anomalous radioactivity in the Athabasca Sandstone just above the unconformity as well as a second interval of anomalous radioactivity located 1.6 m into the basement.

Anomalous radioactivity was encountered in the Athabasca Sandstone with a radioactive peak of 1,540 CPS in a 4.2 m interval that averaged 358 cps, including 0.3 m at 1,322 cps. The radioactivity is associated with hematite, chlorite and clay alteration and stockwork fracturing (Figure 1-4). A RS-230 BGO Super-SPEC Handheld Gamma-Ray Spectrometer measured radioactivity of 520 counts per second ("cps") and a Mount Sopris 2PGA-1000 downhole gamma probe measured a radiometric peak of 1,540 cps within a 4.2 metre interval of anomalous radioactivity from 758.5 to 762.7 metres.

The unconformity was intersected at 762.6 m, which is significantly shallower than expected and is similar depth to unconformity as Orano?s and UEC?s (Uranium Energy Corp.) Shea Creek deposits 13km to the west. The second interval of anomalous radioactivity was encountered 1.6 m below the unconformity in hematite altered basement rocks from 764.2 to 768.2 m averaging 145 cps with a radioactive peak of 262 cps measured with the downhole gamma probe. The alteration both above and below the unconformity indicating the fertility of the target area and a mineralized system.

The second hole of the drill program is already underway. The collar of the hole is a step out of 700m to the east of the first hole. This drill hole is designed to test the continuity of radioactivity at the unconformity intersected in drill hole CF24-001 as well as provide additional geological information to support the observations made.

The Appaloosa target is located at the north end of the 100% owned Coffer project and was first identified from the regional VTEM survey conducted in early 2023. The survey data when compiled and modeled with all available historical data showed the key characteristics for potential uranium mineralization. To best refine drill targets Stallion utilized the latest technology to complete an advanced ground TDEM survey over the target area.

Further bolstering confidence in the target, the Shea Creek deposit (Orano/UEC) of over 93M lbs. is only 13km west of the target area highlighting the uranium endowment in the area. The company has completing the plate modeling for exact drill targets while the field crew stays at the temporary work camp.

This 3-hole, 3,000 meter drill program at Appaloosa marks the companies first drilling campaign in its efforts to discover the next significant uranium deposit in the Athabasca Basin. The Coffer Project is located 224 km north of the community of La Loche and is accessible via highway 955. The accommodations are located 15 km away from the drill site and will be accessible by drill trails.

The Company has secured all necessary permits and approvals for the Program. All core radioactivity was measured using a RS-230 BGO Super-SPEC Handheld Gamma-Ray Spectrometer. Down hole probing radiometric surveying was conducted with a Mount Sopris 2PGA-1000 downhole total gamma probe.

The total gamma results provided in Table 1 were selected using a cut-off of 100 cps over a 0.3 metre downhole width. All drill core samples from the 2024 program will be shipped to the Saskatchewan Research Council Geoanalytical Laboratories ("SRC") in Saskatoon, Saskatchewan, an ISO/IEC 17025/2005 and Standards Council of Canada certified analytical laboratory. Stallion Uranium requests multi-element analysis by ICP-MS and ICP-OES using total (HF:NHO3:HClO4) and partial digestion (HNO3:HCl), boron by fusion.

One half of the split core samples are retained and the other half cores are sent to the SRC for analyses. Blanks, standard reference materials, and repeats are inserted into the sample stream at regular intervals by Stallion Uranium geologists and SRC in accordance with industry-standard quality assurance/quality control ("QA/QC") procedures. All reported depths and intervals are drill hole depths and intervals, unless otherwise noted, and do not represent true thicknesses, which have yet to be determined.

The reader is cautioned that gamma probe readings are not directly or uniformly related to uranium grades of the rock sample measured and should be used only as a preliminary indication of the presence of radioactive materials.