超导电的研究人员在151K时实现了超导, 而没有高压. 这对于室温应用来说是一个重大进展. UH scientists achieved superconductivity at 151 K without high pressure, a major step toward room-temperature applications.

超导材料在环境压力下稳定, 在151克尔文的温度达到超导性. 这比之前的记录高出32华氏度以上. University of Houston professors Liangzi Deng and Paul Ching-Wu Chu have developed a new method to stabilize superconducting materials at ambient pressure, achieving superconductivity at 151 Kelvin—over 32 degrees Fahrenheit warmer than the previous record. 它们的压力灭技术使材料在没有恒定极端压力的情况下保持超导特性, 可能将电网中的能量损失降低多达8%. Their pressure-quench technique enables materials to retain superconducting properties without constant extreme pressure, potentially reducing energy losses in power grids by up to 8%. 这一突破可以推进像MRI,数据中心和核聚变研究等技术, 使室温超导更接近现实, 尽管需要进一步验证. The breakthrough could advance technologies like MRIs, data centers, and nuclear fusion research, bringing practical room-temperature superconductivity closer to reality, though further validation is needed.