Industry
“Security is no longer just about defense — it’s about discovery. At Security 2.0, we don’t just react to threats; we reveal the intelligence behind them. When you understand what’s coming next, you don’t need to catch up — you lead.”
Dr. James Hall, CEO & Founder, Security 2.0, Inc.
Rare earth elements (REEs) — like neodymium, dysprosium, terbium, and yttrium — are essential inputs for critical technologies, including:
Defense systems: precision-guided missiles, fighter jets, radar, and laser systems
Energy technologies: wind turbines, EV motors, and solar panels
Electronics: smartphones, semiconductors, and advanced computing systems
AI and quantum systems: GPUs, magnetic materials, and superconductors
“What SIEMs detect after the breach, our AI-Powered Search Engine predicts before it happens.”
Supply Chain and Advanced Manufacturing
Advanced Bulk Materials
Nanomaterials & Microelectronics Materials, Assembly, & Manufacturing
Critical Minerals Mining & Processing
Pharmaceutical Precursors
Advanced Manufacturing
Mission Critical Real Estate
Shipbuilding
Autonomous Mobile Robots
Industry sub-categories
Defense and Aerospace
Command & Control Tech
Critical Components
Spacecraft
Space Launch
Unmanned Systems
Munitions, Missles, & Hypersonics
6G
Secure Communication
Mesh Networks
Energy Independence & Resilience
Nuclear Energy
Grid Resilience
Distributed Energy
Battery Storage
Solar
Frontier & Strategic Technologies
Cybersecurity
Quantum Computing
Artificial Intelligence
Edge Computing
Sensor Hardware
Why spacecraft are in demand
Critical services & infrastructure
Spacecraft enable things we rely on every day: telecommunications, GPS/navigation, internet, Earth observation, weather forecasting, national-defence reconnaissance, scientific missions, etc. For example, a recent article noted that “space tech supports critical services such as telecommunications, GPS and finance.”
Frontier and Strategic Technologies?
Frontier technologies refer to the newest, most transformative innovations—AI, quantum computing, semiconductors, robotics, biotechnology, advanced materials, and space systems.
Strategic technologies are those with direct implications for national security, critical infrastructure, and economic independence—such as cybersecurity, defense AI, advanced manufacturing, and critical mineral processing.
Together, they form the foundation of 21st-century competitiveness — shaping who leads in defense, industry, and intelligence.
National Security and Strategic Resilience
Reducing reliance on foreign powers: Nations dependent on imported oil, gas, or critical minerals are vulnerable to geopolitical tensions, supply disruptions, or coercive trade practices.
Infrastructure vulnerabilities: Energy grids, pipelines, and refineries are prime targets for cyberattacks and physical sabotage. Ensuring independence means building more resilient, decentralized, and secure systems.
Military readiness: Energy independence ensures uninterrupted power for defense operations, logistics, and intelligence systems — particularly critical in times of conflict or sanctions.