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从光伏到氢能,2025年诺奖暗藏“能源革命”玄机
2 1 Shi Ji Jing Ji Bao Dao·2025-10-09 12:02

Group 1: Nobel Prize Insights - The 2025 Nobel Prizes in Physics and Chemistry highlight advancements in technology and applications rather than purely original discoveries [1][2] - The Physics Prize recognizes contributions to quantum tunneling effects, which could enhance future photovoltaic mechanisms and quantum technologies [2][3] - The Chemistry Prize focuses on metal-organic frameworks (MOFs), which have potential applications in hydrogen storage and gas capture [2][6] Group 2: Quantum Tunneling and Photovoltaics - Quantum tunneling effects are foundational in semiconductor applications and have been utilized in various photovoltaic devices, including TOPCon solar cells [4][5] - TOPCon solar cells, which leverage quantum tunneling, have become mainstream in the photovoltaic market due to their high efficiency [4][6] - The recent Nobel recognition enhances understanding of quantum tunneling, potentially aiding breakthroughs in photovoltaic efficiency [6] Group 3: Metal-Organic Frameworks and Hydrogen Energy - Metal-organic frameworks are seen as ideal materials for hydrogen storage, with a recent study showing a storage capacity of 6.5% by weight [7] - Research indicates that MOFs can facilitate efficient hydrogen storage and have applications in large-scale green hydrogen production [7] - The unique properties of MOFs, such as their flexible lattice structure, expand their potential in energy, catalysis, and materials science [6][7]