抗生素的突破 : 革命性的中国研究为超级细菌击败药物铺平了道路 诸平 A novel method developed by a Chinese research team introduces antibiotics based on protein building blocks with fluorous lipid chains to combat multidrug-resistant bacteria. Focusing on the unique properties of lipoprot ...
老科学,新转折 : 古青蛙化石颠覆了百年信仰 诸平 Fig. 1 No more dry skin – a dead Geiseltal frog started to decay underwater. Credit: A. Pieri (University of Pisa) Fig. 2 The replication process of the frog skin at a glance. Credit: D. Falk, see Falk et al. 2024. Fi ...
最大的癌症全基因组测序研究 诸平 Fig. 1 Mark Caulfield, now a genomic medicine researcher at Queen Mary University of London, was previously the chief scientist for Genomics England, where he oversaw the 100,000 Genomes Project. He was awarded a knighthood in 2019 for his work on the pr ...
科学家解决了几十年的显微镜问题 诸平 Fig. 1 The experimental setup by Daan Boltje and Ernest van der Wee. The lens of the light microscope (bottom right) is surrounded by air and looks through a glass plate at the small sphere. On top of the glass plate, the sample is placed in a drop ...
前所未有的光波 : 科学家揭开了突破性的光量子探测 诸平 Fig. 1 Paderborn University researchers have developed a new method for analyzing optical quantum states with homodyne detection, significantly advancing quantum computing technology. (Artist’s concept). Credit: SciTechDaily.com ...
突破性的新原理——韩国研究人员发现了液晶的革命性现象 诸平 Fig. 1 Researchers have discovered that objects can achieve directed motion within a liquid crystal by periodically changing their sizes, potentially paving the way for advancements in micro-robotics. Fig. 2 From left ...
新材料增压静电储能—— 19 倍能量密度 诸平 Research has produced a ferroelectric capacitor with 19 times the energy density of current models and over 90% efficiency, using novel 2D/3D/2D heterostructures. Credit: SciTechDaily.com Sang-Hoon Bae 据美国圣路易斯的华盛顿大学( W ...
新的研究表明,你的宠物狗或猫可能会传播致命的超级细菌 诸平 据欧洲临床微生物学和传染病学会 ( European Society Of Clinical Microbiology And Infectious Diseases 简称 ESCMID )2024 年 4 月 15 日提供的消息,新的研究表明,你的宠物狗或猫可能会传播致命的超级细菌 ( Warning: New Research Indic ...
中子分子——在MIT的突破性发现中中子与量子点相遇 诸平 Fig. 1 MIT researchers have discovered that neutrons can bind to quantum dots using the strong force, a finding that opens new possibilities for probing material properties at the quantum level and advancing quantum information proc ...