超分辨率显微技术Super-resolution microscopy (SRM)彻底改变了纳米级细胞成像，为细胞结构、细胞器组织、分子相互作用和亚细胞动力学提供了精细的洞察。人工智能Artificial intelligence ...

For decades, this question has bewildered biologists. Now, by studying Placozoa, scientists at Stanford University have ...

Two related discoveries detailing nanocrystalline mineral formation and dynamics have broad implications for managing nuclear ...

For centuries, the field of pathology has been defined by a single instrument: the microscope. But according to William ...

Northwestern University scientists have uncovered a hidden molecular "control switch" inside a protein that helps the body ...

No, a point-and-shoot camera isn’t going to get the same pro results as a mirrorless camera with a good macro lens. A ...

Scientists have identified a marine fungus that was previously unknown and is capable of killing toxic algae known to ...

Researchers in China have developed an electrical imaging technique using three-dimensional (3D) tomographic conductive atomic force microscopy (TC-AFM) to go beyond indirect characterization of ...

Combining microscopy and machine-learning techniques leads to faster, more precise analyses of critical coating materials ...

For much of the twentieth century, sharks and large reptiles were assumed to define the upper limits of dental sharpness in ...

Researchers at Tsinghua University have created a rapid, label-free method using polarized light detection to identify and ...

超分辨显微镜能把细胞内结构看得更细，但传统方法往往要强光、长时间采集，既慢又容易伤样品，还常伴随噪声与重建伪影。《自然·方法》最新一篇综述指出， 人工智能 正在这一领域引发革命：深度学习可以在更低光剂量、更少帧数的条件下去噪、补细节、做超分辨重建，甚至把复杂的物理反演流程变得更自动化。