This article reviews those challenges and presents a solution based on a multiplexed channel architecture that delivers ultra-high resolution, along with very low-power consumption and silicon area.

本期内容，我们将为大家解析MERFISH(Multiplexed error-robust fluorescence in situ hybridization)技术在植物（拟南芥）研究中取得了哪些突破性的进展。 Travis A. Lee及Tatsuya Nobori研究团队利用MERFISH技术和snRNA seq技术分别绘制了拟南芥发育过程中6个不同器官的单核转录组图谱并 ...

In this section we consider the standard ways in which channels carrying telephone calls or data communications are assembled into multiplexed composite signals the payloads for conveyance over ...

Eric Schreiter and Luke Lavis thought they had figured it out. In 2021, the Janelia group leaders reported that they had ...

Interested in the spatial research landscape, technological breakthroughs and future directions? Check out this interview ...

By Pooja Toshniwal Paharia New AI-driven tool converts common histology images into detailed, multi-layered cancer markers, ...

Electromagnetic waves with vortex-shape, namely vortex beams, are important in various fields. However, multi-mode OAM beams ...

Eaton displayed its portfolio of aftermarket low-voltage solutions for the electrified vehicle (EV) market in Europe, the ...

Mission Bio explains how single-cell multiomics can help researchers overcome the challenges of heterogeneous editing ...

In Type 1 diabetes (T1D), insulin-producing β-cells are killed by islet-infiltrating immune cells in a process called “insulitis”. T1D results in a critical requirement for exogenous insulin and ...