从光伏到氢能，2025年诺奖暗藏玄机

Group 1: Nobel Prize Insights - The 2025 Nobel Prize in Physics was awarded to John Clarke, Michel H. Devoret, and John M. Martinis for their contributions to the macroscopic observation of quantum tunneling effects and energy quantization in circuits [1][8] - The 2025 Nobel Prize in Chemistry was awarded to Shinobu Kitagawa, Richard Robeson, and Omar M. Yaghi for their work in the development of metal-organic frameworks (MOFs) [1][8] - This year's Nobel Prizes reflect a shift from traditional "zero to one" discoveries to "one to ninety-nine" technological advancements and applications [8][9] Group 2: Quantum Tunneling Effect - Quantum tunneling allows microscopic particles to pass through energy barriers, akin to "walking through walls" in the quantum realm [10][11] - The awarded research demonstrates that quantum tunneling can be observed on a macroscopic scale, potentially enabling advancements in quantum technologies such as quantum cryptography and quantum computing [10][11] - The quantum tunneling effect is already utilized in photovoltaic technologies, particularly in TOPCon solar cells, which have gained significant market share [11][12] Group 3: Metal-Organic Frameworks (MOFs) - MOFs are new molecular structures that allow gases and chemicals to flow through them, enabling applications such as water extraction from air and carbon dioxide capture [13][14] - MOFs are seen as ideal templates for carbon materials, playing a crucial role in adsorption and separation, thus expanding their potential in energy, catalysis, and materials science [14][15] - Recent research indicates that a specific MOF material has high hydrogen storage potential, achieving a storage density comparable to 70MPa high-pressure tanks [14][15]