Sustainable energy solutions via novel material engineering

At petapascal pressure regimes, what novel superconducting phases emerge in hydrogen-rich compounds?

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Optimizing perovskite solar cell stability at exciton diffusion lengths under gamma radiation stress

perovskite photovoltaics space solar cells radiation tolerance charge transport accelerated aging

Via self-assembled monolayer doping for ultra-efficient semiconductor devices

monolayer doping semiconductors nanotechnology energy efficiency material science

Employing neglected mathematical tools for optimizing perovskite-based carbon capture membranes

perovskite carbon capture mathematical optimization membrane efficiency industrial scaling

Fusing quantum algorithms with albedo-modifying urban materials for megacity cooling

quantum algorithms urban heat island albedo modification megacity cooling material science

Using forbidden physics concepts to engineer megayear material degradation in nuclear waste

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For room-temperature superconductors in quantum computing and energy grids

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Exploring the stability of superhydride materials at petapascal pressure regimes

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Real-time crystallization control for next-generation perovskite solar cell manufacturing

perovskite solar cells crystallization control AI optimization photovoltaics thin-film manufacturing

Optimizing perovskite-silicon tandem cells with cold spray additive techniques for scalable solar energy

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Employing plasma-enhanced atomic layer deposition for 50-year durable solar panels

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Designing 10,000-year stable materials for deep geological nuclear waste storage

nuclear waste material stability geological storage radiation resistance corrosion-proof