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其它杂项| 健康生活| 数学研究| SCI| 科技期刊研究| 新科技| 新观察| 风景如画| 警句荟萃| 药物动态| 同学会| 文理动态|

老科学，新转折:古青蛙化石颠覆了百年信仰: 诸平 2024-4-24 20:24; 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 ...; 个人分类: 新观察|1627 次阅读|没有评论

最大的癌症全基因组测序研究: 诸平 2024-4-23 19:51; 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 ...; 个人分类: 新观察|2197 次阅读|没有评论

前所未有的光波:科学家揭开了突破性的光量子探测: 诸平 2024-4-21 19:40; 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 ...; 个人分类: 新观察|524 次阅读|1 个评论

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 2024-4-21 10:13; 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 ...; 个人分类: 新观察|2825 次阅读|没有评论

新材料增压静电储能——19倍能量密度: 诸平 2024-4-20 19:09; 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 ...; 个人分类: 新观察|2554 次阅读|没有评论

中子分子——在MIT的突破性发现中中子与量子点相遇: 诸平 2024-4-17 20:45; 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 ...; 个人分类: 新观察|2912 次阅读|没有评论

揭示早发性癌症背后的快速衰老之谜: 诸平 2024-4-10 20:29; 揭示早发性癌症背后的快速衰老之谜诸平 Accelerated aging in younger populations has been associated with a higher incidence of early-onset cancers, particularly lung, gastrointestinal, and uterine cancers, pointing towards the importance of modifiable factors in cancer risk. Credit: Sci ...; 个人分类: 新观察|3044 次阅读|没有评论

令人难以置信的幸运，科学家揭示了一位绕过阿尔茨海默症的女士: 诸平 2024-4-8 20:40; 令人难以置信的幸运，科学家揭示了一位绕过阿尔茨海默症的女士诸平 Fog. 1 UC Santa Barbara researchers, collaborating with teams in Colombia, Brazil, and Germany, have made significant advances in understanding the genetic form of early-onset Alzheimer’s disease affecting a large family ...; 个人分类: 新观察|4129 次阅读|没有评论

化学反应可以扰乱量子信息，也可以扰乱黑洞: 诸平 2024-4-7 18:46; 化学反应可以扰乱量子信息，也可以扰乱黑洞诸平 Fig. 1 Rice University theorist Peter Wolynes and collaborators at the University of Illinois Urbana-Champaign have shown that molecules can be as formidable at scrambling quantum information as black holes. (Image courtesy of Martin Grueb ...; 个人分类: 新观察|1190 次阅读|没有评论

阿尔茨海默氏症的突破:科学家们在大脑网络分析方面取得了革命性的飞跃: 诸平 2024-4-6 18:47; 阿尔茨海默氏症的突破 : 科学家们在大脑网络分析方面取得了革命性的飞跃诸平 Fig. 1 A new study highlights the crucial role of brain networks in Alzheimer’s disease research, offering insights into methodologies and future challenges. It emphasizes the need for advancements in data in ...; 个人分类: 新观察|3167 次阅读|没有评论

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