A team at Fraunhofer ISE has created new imaging methods to measure losses in individual sub-cells of multi-junction solar cells based on perovskite-silicon and perovskite-perovskite-silicon ...

When you take a drug, where in your body does it actually go? For most medications, scientists can make only educated guesses ...

In case you've faced some hurdles solving the clue, In large measure, we've got the answer for you. Crossword puzzles offer a fantastic opportunity to engage your mind, enjoy leisure time, and test ...

Kanazawa University, have developed a method for quantitative imaging of ATP levels inside living cells. The study, published in Nature Communications, introduces qMaLioffG, a genetically encoded ...

This paper presents an important advance in genetically encoded voltage imaging of the developing zebrafish spinal cord in vivo, capturing voltage dynamics in neuronal populations, single cells, and ...

The study presents convincing quantitative evidence, supported by appropriate negative controls, for the presence of low-abundance glycine receptors (GlyRs) within inhibitory synapses in telencephalic ...

The blending of high-resolution imaging with machine learning is able to track cells that have been damaged from injury, aging, or disease, and no longer grow and reproduce normally, researchers say ...

As 2025 comes to a close, the editors at The Scientist asked researchers to reflect on the biggest breakthroughs in cell biology this year. They named advances in everything from embryo models for ...

The biological cycle of our existence seems relatively straightforward: we’re born, we live, we die. The end. But when you examine existence at the cellular level, things get a bit more interesting.