Aventurine Capital Group

GPS jamming is a real threat, and Lockheed Martin is stepping up with a quantum-powered solution. The defense giant has secured a contract to prototype a quantum-enabled Inertial Navigation System (QuINS) that can provide precise navigation without GPS. Partnering with Q-CTRL and AOSense, Inc, they aim to move quantum navigation out of the lab and into real-world deployment. Quantum sensors measure motion with extreme precision, offering a reliable alternative in contested environments where GPS signals are disrupted. If successful, this technology could reshape military navigation and even pave the way for civilian applications. The race for resilient navigation is on, and quantum just might be the breakthrough that changes everything. https://lnkd.in/ga8nHHAx #AI #Aeronautics #Quantum #GPS #DeepTech

Early detection of mild cognitive impairment could be a game changer in the fight against Alzheimer’s, but access to testing remains a huge barrier. Researchers at the University of Missouri-Columbia have developed a portable, affordable system that can detect subtle motor function changes linked to cognitive decline. The device, using AI and simple motion tracking, correctly identified 83% of study participants with MCI—a promising step toward earlier diagnosis and intervention. With Alzheimer’s cases expected to more than double by 2060, tools like this could bring testing to underserved communities, from senior centers to physical therapy clinics. The sooner we can identify cognitive decline, the sooner people can access treatments that may slow the disease’s progression. https://lnkd.in/gYYyXdSW #AI #MedTech #Alzheimers #Healthcare #DeepTech

The U.S. is generating more solar energy than ever before, but without proper storage, much of it is going to waste. California alone curtailed over three million megawatt-hours of solar power in 2024, doubling the amount lost since 2021. The U.S. Department of Energy (DOE) is investing billions in lithium-ion battery storage, but long-duration solutions like pumped hydro, compressed air, and thermal storage are needed to make renewables more reliable. Some of these technologies can store power for days or even weeks, providing grid stability when solar and wind output fluctuates. With artificial intelligence and electrification driving up energy demand, storage innovation is now more urgent than ever. The transition to a net-zero grid depends not just on generating clean energy, but on storing it efficiently. https://lnkd.in/gK86qSNc #RenewableEnergy #Energy #AI #Storage #DeepTech

Graphene just keeps getting more interesting. Researchers at The University of Texas at Dallas are exploring how stacking graphene layers in a specific way can turn this material into a reconfigurable semiconductor. Their latest findings show that rhombohedral graphene can exhibit magnetism, superconductivity, and the quantum anomalous Hall effect, all within the same sample. Instead of modifying a semiconductor’s chemical composition, scientists can now tune its properties using electric gates. This breakthrough could lead to major advances in quantum computing and next-generation electronics. It is a big moment for a material that was first isolated just two decades ago. https://lnkd.in/gxZJmFAJ #AI #QuantumComputing #Superconductor #DeepTech #Patent

Researchers at Northwestern University have developed a solvent-free and non-toxic process that recycles PET plastics using just a simple catalyst and the humidity in the air. This method requires no harsh chemicals or extreme temperatures, making it a clean, efficient, and scalable solution that could revolutionize plastic recycling. The United States recycles only 5% of its plastic, but this innovation offers a real chance at a circular economy where materials can be reused instead of discarded. Even more impressive, it works on real-world plastic waste such as bottles and textiles without requiring sorting beforehand. This research could have a huge impact in the fight against plastic pollution. https://lnkd.in/gWXuAeu5 #MaterialsScience #Plastic #Recycling #DeepTech #VC

The UK’s energy future is getting a local makeover. Smart Local Energy Systems (SLES) are reshaping how power is generated, stored, and used—putting communities at the center of the clean energy transition. Unlike the old, centralized grid, these systems integrate renewables, smart grids, and advanced storage to cut costs, boost resilience, and slash emissions. But while the technology is ready, policy and regulatory barriers are still playing catch-up. The UK’s Local Power Plan is a step in the right direction, unlocking ￡1 billion annually for community-led energy projects, but local authorities need private sector investment and collaboration to scale these solutions. From Bristol to Oxford, early adopters are proving that SLES can work when communities are engaged and empowered. The bottom line? A decentralized, democratized energy system isn’t just possible; it’s necessary for a sustainable, affordable, and secure energy future. https://lnkd.in/gJVHPWgs #SLES #Energy #RenewableEnergy #DeepTech #Patents

Imagine a world where your most sensitive data—medical records, financial transactions, or even genomic information—could be analyzed without ever being decrypted. That’s the promise of homomorphic encryption (HE), and researchers like Dr. Luis Bernardo Pulido Gaytan are leading the charge to make it a reality. Working at the intersection of machine learning and cryptography, his research focuses on developing privacy-preserving AI models that allow encrypted data to be processed securely in cloud environments. This research will impact industries facing stringent privacy regulations, from healthcare to finance. As quantum computing looms on the horizon, lattice-based HE could be a critical safeguard against future cyber threats. The challenge? Making this cutting-edge encryption efficient enough for real-world AI applications. But with researchers like Pulido-Gaytan pushing the boundaries, the future of secure, cloud-based AI is closer than ever. https://lnkd.in/gEQEXEwM #ML #Cryptography #AI #QuantumComputing #MedTech #FinTech #DeepTech

Quantum materials researchers have observed crossed Andreev reflection (CAR) in a topological insulator nanowire. This rare superconducting phenomenon could pave the way for remote entanglement and next-gen quantum tech. This effect, which allows superconducting Cooper pairs to form across long distances, had previously been elusive in topological insulators. Using conductance spectroscopy, the team detected negative non-local conductance, a telltale signature of CAR, at distances far beyond conventional superconducting coherence lengths. This suggests that disorder-induced Andreev bound states may be playing a key role in extending quantum correlations. These findings challenge assumptions about non-local transport in mesoscopic superconductors and could reshape our understanding of topological superconductivity. With potential applications in quantum computing and exotic superconducting states, this discovery adds an exciting new piece to the puzzle of quantum materials. https://lnkd.in/g7B7DnXs #MaterialsScience #Quantum #Superconductors #DeepTech

Nations and corporations are in a high-stakes race for quantum supremacy, a technology that could reshape industries and global power dynamics. Quantum computers, capable of solving problems in seconds that classical supercomputers couldn’t tackle in septillions of years, are set to revolutionize AI, cybersecurity, finance, and pharmaceuticals. With investments surpassing $10 billion, breakthroughs like Quantum Error Correction (QEC) and diamond-based qubits are making scalable quantum computing a reality. The global quantum computing market is projected to skyrocket from $1.13B in 2024 to $18.12B by 2035, with nations like the U.S., China, Germany, and the UAE leading the charge. Beyond commercial applications, this race has geopolitical and military implications, fueling a new technological arms race. Yet, as quantum power consolidates, will it widen the digital divide, or can we create a future where these advancements benefit all? https://lnkd.in/gHDJMDc8 #QuantComputing #Qubits #IP #Patents #DeepTech

Scientists at SLAC National Accelerator Laboratory have created an ultrashort electron beam with five times more peak current than any other similar beam on Earth. This game-changing advance overcomes a major hurdle in particle accelerator physics, opening new frontiers in quantum chemistry, astrophysics, and materials science. Instead of traditional microwave compression, researchers used laser-based shaping, achieving an unprecedented level of precision and control. The result? A powerful tool capable of recreating cosmic phenomena, testing quantum theories, and even advancing attosecond light pulses for next-gen imaging. This isn’t just a beam—it’s a scientific Swiss Army knife. If your research demands extreme power and precision, FACET-II is ready.? https://lnkd.in/gJRyrv9Q #Quantum #Imaging #Chemistry #MaterialsScience #DeepTech