Researchers at Columbia Engineering have for the first time used DNA to help create 3D electronically operational devices with nanometer-size features. "Going from 2D to 3D can dramatically increase ...

A new 3D genetic imaging method uses DNA itself to map out the molecular structure inside living organisms. This breakthrough could unlock new insights into cancer, immunity, and development.

Researchers at Columbia Engineering have achieved a feat—using DNA to create 3D, electronically operational devices with nanoscale precision. This innovation could significantly enhance computing ...

Credit: Center for Functional Nanomaterials. In an exciting breakthrough, scientists at Columbia Engineering have figured out how to use DNA to build tiny 3D electronic devices that can assemble ...

This technique, called volumetric DNA microscopy, creates a 3D image of an entire organism from the inside out, giving scientists an unprecedented view of genetic sequences and where they are ...

为解决传统自上而下制造方法在亚 50nm 特征上的局限，以及 DNA 自组装在特定表面位置选择性生长和集成的难题，研究人员开展了结合自下而上和自上而下方法选择性生长 3D DNA 超晶格的研究。结果成功制备出具有光电流响应的自组装 3D 纳米结构电子器件 ...

This technique, called volumetric DNA microscopy, creates a 3D image of an entire organism from the inside out, giving scientists an unprecedented view of genetic sequences and where they are located, ...

Chip-integrated 3D nanostructured device fabricated using DNA self-assembly (Left panel). A DNA crystal is grown at a designated substrate location (about 1000 crystals on 5μm pads are shown on a ...

美国芝加哥大学的科学家开发出一种名为体积DNA显微镜的革命性成像技术。该技术可“从内到外”绘制生命3D图，科学家通过标记和追踪分子间的 ...