Core Insights - Q Precious & Battery Metals Corp. (QMET) has confirmed multiple fault-controlled degassing corridors across key target areas in Nova Scotia, which will serve as priority drilling targets for its inaugural hydrogen exploration drill program in collaboration with Québec Innovative Materials Corp. (QIMC) [1][2] Summary by Sections Hydrogen Exploration Targets - The confirmed target zones include the Salt Spring-Oxford 2 Zone, the Apple River-Sand River-Shulie structural corridors, and the Oxford-Springhill sectors [2] Radon-Thoron and Hydrogen Correlation - Recent fieldwork has verified high concentrations of radon and thoron associated with hydrogen anomalies, indicating deep-seated gas migration pathways [3][4] Hydrogen Concentration Data - At Springhill and Salt Spring 2 licenses, hydrogen concentrations ranged from 235 ppm to over 1,000 ppm H₂, with radon values between 12,000 to 71,000 Bq/m³ and thoron values from 9,000 to 34,000 Bq/m³ [5] - Along the Apple River-Sand River-Shulie corridors, radon ranged from 5,000 to 85,000 Bq/m³ and thoron from 4,000 to 30,000 Bq/m³, with hydrogen concentrations between 178 ppm and 366 ppm H₂ [6] - In the Oxford sector, radon values reached 27,000 Bq/m³, thoron 25,000 Bq/m³, and hydrogen concentrations peaked at 1,662 ppm [7] Drilling Preparation - The correlation between elevated radon-thoron emissions and high hydrogen values provides precise subsurface targets for drilling, indicating zones of sustained permeability and active gas migration [9] - QMET is preparing for drilling deployment, having completed a flow-through private placement to fund the drilling and technical collaboration with QIMC [10][11] Milestone in Hydrogen Program - This transition marks a significant milestone in QMET's Nova Scotia Hydrogen Program, moving from surface geochemical mapping to subsurface confirmation of natural hydrogen systems [12] Company Overview - Q Precious & Battery Metals Corp. is a Canadian natural resource exploration company targeting critical and precious metals as well as Clean Natural White Hydrogen, with flagship projects in Quebec and Nova Scotia [13]

Core Insights - Q Precious & Battery Metals Corp. (QMET) has expanded its Hydrogen Program in Nova Scotia following significant discoveries of natural hydrogen anomalies by Québec Innovative Materials Corp. (QIMC) in the Cumberland Basin [1][3] - The Institut National de la Recherche Scientifique (INRS) has mobilized a field team to conduct advanced geophysical surveys and radon-thoron soil gas measurements to refine subsurface models and delineate target zones [2][3] - QMET's recent land acquisition enhances its presence in Nova Scotia, focusing on high-priority targets identified by QIMC, which showed elevated hydrogen readings [3][5] Company Developments - QMET is participating as a Silver Sponsor at the upcoming Nova Scotia Mineral Resources Conference, scheduled for November 12-13, 2025, in Halifax, where it will discuss the region's potential for clean hydrogen development [4] - The company emphasizes its confidence in Nova Scotia's subsurface potential and the scientific efforts of its partners, contributing to the province's reputation as a hub for sustainable energy [5] Project Overview - QMET's flagship projects include the LaCorne South Critical Minerals Project and the newly acquired Matane project in Quebec, along with the Colchester Natural Hydrogen Projects in Nova Scotia, in collaboration with QIMC [6]

Core Insights - Q Precious & Battery Metals Corp. (QMET) has confirmed a second major natural hydrogen discovery in Nova Scotia, specifically in the Springhill area, building on previous results from the Apple Shulie Corridor [1][3] - The Springhill program collected 230 soil gas samples, with 17 results exceeding 400 ppm hydrogen, including three samples over 700 ppm, and a peak measurement of 1,652 ppm, indicating significant hydrogen potential in the region [2] Company Overview - QMET holds 31 licenses in the northern margin of the Cumberland Basin, covering the Springhill-Salt Springs-Oxford-Pugwash-Fox Harbour-Wallace region, which is characterized by complex geological structures conducive to hydrogen formation [4][16] - The company is collaborating with Quebec Innovative Materials Corp. (QIMC) and the Institut National de la Recherche Scientifique (INRS) to advance exploration efforts in this emerging energy sector [1][3] Geological Context - The geological complexity of the area includes steeply dipping faults and synclines, with Windsor Group sediments that host thick interbeds of salt and evaporitic formations, which are critical for hydrogen gas diffusivity [4][8] - Reflective seismic studies and previous drilling in the region have provided insights into the underlying structures, which are essential for understanding fluid movement and potential reservoir formation [8] Future Plans - Despite wildfire-related access limitations, QMET and its partners plan to return to the Springhill area in Fall 2025 to complete further surveys and exploration [15]

Core Insights - Q Precious & Battery Metals Corp. (QMET) has announced significant findings in its hydrogen exploration program, with soil gas sampling results showing concentrations as high as 1,840 ppm in the Apple River-Shulie-Sandy corridor, indicating multiple high-grade hydrogen zones [1][4]. Exploration Results - The latest sampling included 200 additional samples, confirming the continuity and expansion of hydrogen-rich zones in the area [1]. - A total of 15 new samples exceeded 500 ppm hydrogen, reinforcing the potential scale of the discovery [4]. Geological Context - The exploration program has completed preliminary sampling in the northern license area, located 2 km south of Joggins, and has also extended sampling in previously tested southern licenses [2]. - Fault structures in the southern Cumberland Basin are not evident in the northern areas, but seismic data suggests significant subsurface structures that may influence hydrogen gas flow [3]. Strategic Partnerships - QMET collaborates with Quebec Innovative Materials Corp. (QIMC) and the Institut National de la Recherche Scientifique (INRS) to validate its exploration model and advance the hydrogen discovery [4][8]. Management Perspective - The CEO of QMET, Richard Penn, emphasized the exceptional results and the potential for a large-scale clean natural hydrogen system, indicating a commitment to aggressive exploration alongside partners [5]. Future Plans - The new data will be integrated into the exploration model to refine targets for deeper subsurface testing and follow-up programs [6][7].