Critical minerals are a pivotal control point in the global economy, driving advancements in technology, defense, energy, and manufacturing sectors
By focusing on the efficient and sustainable recovery of critical minerals, Anactisis is committed to strengthening global supply chains, fostering technological innovation, enhancing national security, and reducing dependence on limited natural sources.
Global Market
expected to grow to
>$1 Trillion
by 2030
15%-25%
annual growth
Scandium
Scandium, a rare earth element, significantly enhances the strength, durability, and corrosion resistance of aluminum alloys. It is the secret ingredient that enables next-generation technologies in energy, transportation, defense, aerospace, and advanced manufacturing where high-performance materials are crucial.
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Sc
Aersospace Alloys
Scandium significantly improves strength-to-weight ratios, corrosion resistance, and durability. This enables the production of lighter, more robust components for aircraft, defense systems, and space technologies.
Advanced Manufacturing and Additive Technologies
The unique properties of scandium are driving innovation in advanced manufacturing, including 3D printing of high-strength components, catalytic processes, and the development of novel materials for aerospace and defense.
Solid Oxide Fuel Cells (SOFCs)
Scandium oxide (Sc₂O₃) enhances the performance of SOFCs by improving ionic conductivity and stability, leading to higher power output and increased reliability. This supports renewable energy systems and efficient power generation.
Semiconductors and Electronics
Gallium-based compounds, such as Gallium Nitride (GaN) and Gallium Arsenide (GaAs), are fundamental in producing high-frequency and high-power devices, including high-speed processors, LEDs, lasers, and 5G/6G communication systems.
Defense and Aerospace
Gallium compounds are used in advanced radar systems, infrared optics, and thermal imaging devices for modern warfare, surveillance, and missile defense systems, enhancing communication, detection, and targeting capabilities.
Healthcare and Diagnostics
Gallium-based materials are used in medical imaging and diagnostic devices, enhancing the accuracy and performance of MRI machines, radiation detection, and advanced medical sensors.
Gallium
Gallium is a critical element that drives advancements in high-speed electronics, optoelectronics, and defense technologies. Its unique semiconducting and optoelectronic properties make it indispensable in the modern digital economy.
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Ga
Gallium
Gallium is a critical element that drives advancements in high-speed electronics, optoelectronics, and defense technologies. Its unique semiconducting and optoelectronic properties make it indispensable in the modern digital economy.
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Ga
Semiconductors and Electronics
Gallium-based compounds, such as Gallium Nitride (GaN) and Gallium Arsenide (GaAs), are fundamental in producing high-frequency and high-power devices, including high-speed processors, LEDs, lasers, and 5G/6G communication systems.
Defense and Aerospace
Gallium compounds are used in advanced radar systems, infrared optics, and thermal imaging devices for modern warfare, surveillance, and missile defense systems, enhancing communication, detection, and targeting capabilities.
Healthcare and Diagnostics
Gallium-based materials are used in medical imaging and diagnostic devices, enhancing the accuracy and performance of MRI machines, radiation detection, and advanced medical sensors.
Germanium
Germanium is a versatile semiconductor with significant applications in optics, electronics, and renewable energy. Its superior semiconducting and infrared optical properties make it vital in high-tech industries and next-generation energy solutions.
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Ge
Semiconductors and Electronics
Germanium is used as a substrate in high-efficiency transistors and integrated circuits, enabling faster processing speeds and improved energy efficiency in advanced computing systems.
Renewable Energy and Electrification
Germanium is a key component in high-efficiency solar cells, particularly in space applications where its radiation resistance and energy conversion efficiency are critical.
Infrared Optics and Defense
Due to its transparency in the infrared spectrum, germanium is used in thermal imaging cameras, night vision equipment, and infrared optics for defense and aerospace applications.