Ammonia (NH3) is a promising hydrogen carrier due to its high hydrogen content, ease of liquefaction, and well-established production and transport infrastructure. Ammonia can be synthesized from renewable energy sources and then decomposed to release hydrogen for use in fuel cells or combustion engines. The unique chemical properties of ammonia enable the storage and transport of hydrogen in a safe and efficient manner, making it an attractive option for large-scale hydrogen utilization. Research is focused on optimizing the synthesis and decomposition of ammonia, improving the efficiency of catalytic systems, and developing new materials for ammonia storage and transport. The integration of ammonia with renewable energy systems, such as wind and solar, is also being explored to enable large-scale hydrogen storage and utilization. Applications of ammonia as a hydrogen carrier include industrial hydrogen storage, fuel cell vehicles, and renewable energy integration, where its safety and scalability are critical. From a futuristic perspective, ammonia could enable the development of a global hydrogen economy, providing a reliable and sustainable solution for energy storage and transport. The exploration of hybrid ammonia systems, combining ammonia with other storage technologies like LOHCs or MOFs, is opening new avenues for innovation. Beyond terrestrial applications, ammonia is being considered for space exploration, where its stability and transportability are advantageous. The convergence of chemistry, engineering, and renewable energy is accelerating the realization of ammonia as a hydrogen carrier, heralding a new era of energy storage that is more efficient, sustainable, and accessible.
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