The tiny device uses a tightly focused beam of light to capture and manipulate cells. MIT researchers have developed a miniature, chip-based “tractor beam,” like the one that captures the Millennium ...

By studying changes in gene expression, researchers learn how cells function at a molecular level, which could help them understand the development of certain diseases.

Research scientist Yosuke Tanigawa and Professor Manolis Kellis at MIT Computer Science and Artificial Intelligence ...

The relentless march of computational power has long relied on our ability to make electronic components smaller and more ...

MIT's new 'PortaChrome' tech enables instant, on-the-go object redesigns using ultraviolet, red, green, and blue LEDs.

Harvard University and MIT are two of the world’s top institutions for Chemistry, ranked #1 and #2 respectively in the QS World University Rankings 2024. This article compares their programmes, ...

Over the past two decades, new technologies have helped scientists generate a vast amount of biological data. Large-scale ...

Over the past two decades, new technologies have helped scientists generate a vast amount of biological data. Large-scale experiments in genomics, transcriptomics, proteomics, and cytometry can ...

A protocol for differentiating visceral sensory ganglion organoids from induced pluripotent stem cells allows the establishment of an in vitro model for the gut–visceral nerve–brain axis and ...

MIT biological engineers developed a computational approach to extracting useful information from large biological datasets. They showed they could unravel interactions that determine how the immune ...

For the study, the researchers focused on a type of GenAI model known as a transformer, which forms the backbone of LLMs like ...

By simulating a magnetic field on a superconducting quantum computer, researchers can explore the intricate properties of ...