神奇材料石墨烯再次震撼 : 打破磁阻记录 诸平 In a paper published in the journal Nature o n April 12, 2023, researchers from The University of Manchester report record-high magnetoresistance that appears in graphene under ambient co ...
MIT: 纳米粒子激发免疫反应对抗肿瘤,但避免副作用 诸平 The researchers designed prodrugs with bottlebrush-like structures based on a class of compounds called imidazoquinolines (IMDs). Credits: Image: Courtesy of the researchers 据美国麻省理工学院新闻办公室( MIT News Office ) 2 ...
并非量子自旋液体? 诸平 Prof. Andrej Pustogow 之前介绍过 Science:科学家们记录了一种前所未有的物质态 —— 量子自旋液体 的存在 , 量子自旋液体的相关研究概述的博文,今天再来介绍 奥地利 维也纳科技大学 ( Vienna University of Technology 简称 TU Wien , Vienna, Austria ) 202 ...
比米粒还小的可植入装置,可以缩小胰腺肿瘤 诸平 Houston Methodist Research Institute nanomedicine researchers used an implantable nanofluidic device smaller than a grain of rice to deliver immunotherapy directly into a pancreatic tumor. Credit: Houston Methodist 据美国休斯顿卫理公会 ...
胆管癌的新治疗选择 诸平 Immunotherapies for cancer: The body’s own immune defence is specifically supported or activated to seek out and attack cancer cells.Copyright: medJUNGE 据德国汉诺威医学院 ( Hannover Medical School 简称 MHH , Hanover, Germany)2023 年 4 月 17 日 ...
一个光子如何变成四个电荷载流子 诸平 Illustration of exciton splitting in the organic semiconductor pentacene, which consists of five benzene rings each. Instead of the usual two free charge carriers, absorption of a photon in pentacene generates four free charge carriers, represented ...
癌细胞如何进入其他器官 诸平 Cancer cell invading tissue -Credit: Emad Moeendarbary, UCL 据英国伦敦大学学院( University College London 简称 UCL ) 2023 年 4 月 13 日提供的消息,来自伦敦大学学院 ( UCL ) 、美国麻省理工学院( Massachusetts Institute of Technology 简称 MIT ...
氢分子与惰性气体原子碰撞中的量子效应 诸平 据德国 柏林自由大学 ( Free University of Berlin / Freie Universität Berlin , Arnimallee, Berlin, Germany ) 2023 年 4 月 12 日提供的消息, 氢分子与惰性气体原子碰撞中的量子效应 ( Quantum effects demonstrated in the collis ...
研究人员发现过多的氧气会对人类造成持久的健康问题 诸平 Fig. 1 Alan Baik is part of the team in Isha Jain’s lab at Gladstone Institutes that uncovered why high levels of oxygen can cause lasting problems in humans. Credit: Michael Short/Gladstone Institutes Fig. 2 Graphica ...