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Critical Elements aspires to become a large, responsible supplier of lithium to the flourishing electric vehicle and energy storage system industries. We are advancing the wholly owned, high-purity Rose Lithium-Tantalum project in Québec, the corporation’s first lithium project to be advanced within a land portfolio of over 1,050 km2. Rose is also one of the most advanced hard rock lithium projects and one of the only North American lithium projects with environmental authorization.
The project has received approval from the Federal Minister of Environment and Climate Change on the recommendation of the Joint Assessment Committee, comprised of representatives from the Impact Assessment Agency of Canada and the Cree Nation Government. Critical Elements Lithium also received the Certificate of Authorization pursuant to section 164 of Québec’s Environment Quality Act from the Québec Minister of the Environment, the Fight against Climate Change, Wildlife and Parks, and the project mining lease from the Québec Minister of Natural Resources and Forests under the Québec Mining Act.
We drive the transition to more renewable, reliable, and reasonable energy systems. Prominent solar and hybrid power generating company. Focused on providing solar and hybrid power through different business verticals. The company develops, builds, owns, operates and maintains solar and hybrid power plants through as an Independent Power Producer (IPP) and as service provider to Captive Power Producer (CPP) under the brand name of Solarism. Interested in switching to green energy power and save huge on electricity bills?
We’re not just here to sell you a solar system, we’re here to help you take control of your energy future. We specialise in designing and installing high-performance solar, battery, and energy management systems for homes and businesses across Australia. With a team of experienced electricians, SAA accredited designers, and project managers, we deliver quality solutions that are built to last. From your first consultation to long after the install is complete, Powered by Solar is committed to getting it right. We use only trusted products from industry leaders like Tesla, Sungrow, and Sigenergy, and we stand by our work with solid warranties and responsive support.
As a NEA approved environmental company in Singapore, GreenTec Energy takes all our services seriously and to ensure maximum safety with compliances applied. Every step of our disposal processes are also designed to meet local government authorities’ requirements, with latest treatment facilities and laboratory to test and treat all incoming waste before disposal. GreenTec Energy operates a total land area of about 100,000sqft with our comprehensive logistics and transportation fleet, we provide prompt and efficient services in transportation of waste to our premises.
We produce copper in the form of concentrate, cathode and anode, and have inventories of nickel, gold and cobalt. We operate long life mines in several countries and employ approximately 20,000 people world-wide.
We are well-known for our ‘can do’ attitude and specialist technical, engineering, construction and operational skills, which allow us to develop and successfully run complex mines and minerals processing plants.
As a company and individuals, we strive to go beyond the goals set by other companies. After 25 years of operations we are now one of the world’s top 10 copper producers, exporting millions of tonnes of concentrate from multiple countries to customers worldwide. We are focused on providing a tangible benefit from everything we do for investors, employees and the many communities that host our operations.
Strategic materials company focused on delivering rare earth products for technology, energy and defense applications by advancing the Bear Lodge Critical Rare Earth Project in northeast Wyoming. Bear Lodge is a significant mineralized district containing many of the less common, more valuable, critical rare earths elements (REEs) that are essential for high-strength permanent magnets, electronics, fiber optics, laser systems for medical technology and defense, as well as technologies like electric vehicles, solar panels and wind turbines.
The proprietary technology for REE extraction/separation, developed by the Company and being advanced by affiliates of the Company’s majority shareholder, General Atomics (GA), has successfully separated REE oxides into commercial-grade, saleable products, such as neodymium/praseodymium (Nd/Pr) oxide. Indications are that it will do so with greater efficiency and lower environmental impact than current industry methods. Rare Element Resources was incorporated in 1999. Its common shares are traded on the OTCQB Venture Marketplace (“OTCQB”) under the symbol “REEMF.”
Innovator specializing in advanced alkaline electrolysis technology for hydrogen production. Their manufacturing process leverages precision engineering to build modular, scalable electrolyzer units that convert water into hydrogen using robust, environmentally friendly methods. By emphasizing energy efficiency and low maintenance, they deliver systems well suited for distributed renewable energy applications and remote industrial sites.
Working in close collaboration with research institutions and regional utilities, HydrogenPro continuously refines its electrolysis processes to boost hydrogen yield while reducing operational costs. Their commitment to sustainable energy conversion not only supports local decarbonization initiatives but also paves the way for broader adoption of hydrogen as a clean fuel across diverse sectors.
We are a trusted engineering, design, and manufacturing company specializing in well completion, sand control, and artificial lift solutions. As a center of excellence for downhole tools, we emphasize local content and deliver cost-effective, high-quality products on time. Backed by a technically proficient team and deep expertise in manufacturing and oilfield services, we provide reliable solutions to service companies worldwide.
Pioneering force in the renewable energy arena, designing and manufacturing high-efficiency photovoltaic modules for a wide range of applications. From residential rooftops to sprawling utility-scale solar farms, their cutting-edge modules harness sunlight with impressive reliability and durability. The company’s expansive footprint across continents reflects its dedication to revolutionizing power generation through cost-effective and sustainable solar technology.
Innovation fuels Canadian Solar’s operational ethos. By continuously investing in research and development, the firm refines module performance and long-term energy output, ensuring that its production facilities are at the forefront of automation and quality control. This blend of advanced technology with a resolute commitment to reducing carbon footprints not only fortifies its market position but also propels the global shift toward cleaner, renewable energy sources.
Clean energy systems and modern electronic devices often require far larger quantities of mineral inputs than traditional technologies; for example, an electric vehicle can require several times the mineral inputs of a conventional car, and a wind or solar power plant uses many times more mineral materials than a comparable fossil fuel plant. This surge in demand reflects the expanding role of batteries, electric motors, and electronic components in the global economy, transforming minerals once considered niche into essential building blocks for clean technology and digital infrastructure.
Critical minerals are vital for powering batteries, electric motors, and electronic devices. Lithium, cobalt, and nickel are core components of the lithium-ion batteries used in electric vehicles and grid-scale energy storage, determining battery performance and capacity.
Rare earth elements are essential ingredients in high-strength permanent magnets that drive electric motors and turbines, and they also play a role in many advanced electronics. Other materials, such as graphite (used in battery anodes) and copper (used in electrical wiring and electronics), also play key roles in clean energy and digital systems. The result is that global demand for these minerals is rising rapidly as the world accelerates toward cleaner energy and more connected technologies.
This rapid rise in demand has highlighted concerns about supply security. The production and processing of critical minerals tends to be geographically concentrated, so disruptions in a few locations can have outsized impacts on the entire supply chain; political changes, trade restrictions, or natural disasters in a key mining region can quickly lead to shortages or price spikes.
Developing new mines and processing plants takes many years of investment, permitting, and construction, often a decade or more, so supply often lags behind sudden spikes in demand. For these reasons, securing access to critical minerals has become a strategic concern for governments and companies worldwide.
Meeting rising demand is technically and environmentally challenging, because many critical minerals are difficult to extract and refine at scale. For example, extracting lithium from underground brine or rock can be water- and energy-intensive, and processing nickel or cobalt often involves harsh chemicals and large energy inputs. Mining operations can disturb large areas of land, creating waste rock, tailings, and the potential to pollute local water supplies.
Many deposits have declining ore grades, meaning miners must process more rock and generate more waste per ton of metal, which in turn tends to increase greenhouse gas emissions unless offset by clean energy. All of these factors make it challenging and costly to ramp up production quickly while maintaining high environmental and social standards.
In response to these challenges, companies and governments are pursuing multiple strategies, including investing in new mines and processing facilities in diverse regions to avoid over-reliance on any single source. Automakers, battery manufacturers and technology firms are forming partnerships and securing long-term contracts, sometimes even investing directly in mines or processing plants, to lock in material supplies.
Recycling and reuse have become priorities as well: new recycling programs aim to recover lithium, cobalt, nickel and rare earths from spent batteries and electronic waste, creating valuable secondary sources. Research and development efforts are also accelerating, focusing on more efficient extraction and processing methods, substitution of scarce materials in batteries and magnets, and other lower-impact technologies. Together, these steps are intended to build a more resilient and sustainable supply chain for the critical minerals that underpin the clean energy transition.
Major global commodity trading and mining company, active in the production and marketing of metals, minerals, and energy products. The company’s operations span across continents and encompass a wide range of commodities, including copper, zinc, nickel, and coal. Glencore’s extensive global network and integrated supply chain enable it to efficiently manage the production, distribution, and trading of essential raw materials.
Glencore is dedicated to balancing commercial success with responsible business practices. The company invests in advanced technologies and rigorous environmental standards to ensure sustainable resource extraction and processing. By leveraging its deep industry expertise and global reach, Glencore continues to contribute to the supply of vital commodities while fostering sustainable development and supporting local communities worldwide.
Prominent integrated energy company that plays a crucial role in the exploration, production, refining, and marketing of oil and gas. Repsol has evolved its operations to embrace both traditional hydrocarbon activities and the development of renewable energy sources. The company’s robust portfolio and strategic vision enable it to meet global energy demands while driving innovation in sustainable energy practices.
Repsol is committed to reducing its environmental impact through investments in cutting-edge technologies, efficiency improvements, and sustainable resource management. Its proactive approach to energy transition—encompassing initiatives such as carbon capture and renewable projects—ensures that the company remains competitive and responsible in a rapidly changing market. Through continuous innovation and strategic global expansion, Repsol not only fuels economic growth but also contributes to a more sustainable energy landscape worldwide.