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QIMC Expands Temiscamingue Natural Hydrogen Corridor, Strengthening Its Geology-to-AI Off-Grid Energy Strategy
Montreal, Quebec--(Newsfile Corp. - December 18, 2025) - Québec Innovative Materials Corp. (CSE: QIMC) (OTCQB: QIMCF) (FSE: 7FJ) ("QIMC" or the "Company") is pleased to report new high-grade soil-gas hydrogen anomalies from four additional sampling lines completed west of its previously disclosed work within the Temiscamingue, Ontario natural hydrogen corridor. The new data, from the fall 2025 sampling campaign, materially expands the defined footprint of the hydrogen system from 11km to 15km...
About this update from Quebec Innovative Materials Corp
[{"type":"text","content":"Montreal, Quebec--(Newsfile Corp. - December 18, 2025) - Québec Innovative Materials Corp. (CSE: QIMC) (OTCQB: QIMCF) (FSE: 7FJ) ("QIMC" or the "Company") is pleased to report new high-grade soil-gas hydrogen anomalies from four additional sampling lines completed west of its previously disclosed work within the Temiscamingue, Ontario natural hydrogen corridor. The new data, from the fall 2025 sampling campaign, materially expands the defined footprint of the hydrogen system from 11km to 15km and further validates QIMC's proprietary fault-controlled natural hydrogen exploration, and development model. These results also support QIMC's strategy of developing scalable, fault-controlled natural hydrogen systems capable of supporting future low-emission, off-grid energy applications.","length":818,"tagName":"p"},{"type":"text","content":"Recent commercial developments in the natural hydrogen sector, including emerging hydrogen off-take frameworks tied to energy-intensive computing infrastructure, underscore the growing demand for reliable off-grid low-emission hydrogen supply. These market signals highlight the relevance of scalable, naturally sourced, off-grid hydrogen systems and reinforce the strategic value of district-scale hydrogen corridors capable of supporting future distributed energy applications.","length":479,"tagName":"p"},{"type":"text","content":"Soil-Gas Survey Anomalies Confirm District-Scale Hydrogen System Expansion","length":74,"tagName":"p"},{"type":"text","content":"A total of 647 soil-gas samples were collected across four new westward lines (L20W, L21W, L22W, and L24W). Results include a peak hydrogen concentration of 2,843 ppm on Line L24W, along with two newly defined hydrogen hotspot zones on Lines L20W and L21W. Across these two lines alone, 247 samples returned hydrogen values up to 1,849 ppm, including 12 samples exceeding 1,000 ppm and 45 samples above 500 ppm, indicating a robust, laterally continuous hydrogen anomaly over multiple kilometres.","length":496,"tagName":"p"},{"type":"text","content":""What we are demonstrating at Temiscamingue is not just continuity of hydrogen anomalies, but the emergence of a district-scale energy system," said John Karagiannidis, CEO of QIMC. "The scale, consistency, and predictability we're seeing support our long-term ...