This important study presents a new method for longitudinally tracking cells in two-photon imaging data that addresses the specific challenges of imaging neurons in the developing cortex. It provides ...

Nothing has broken away from the LED-laden rear panel that users love, and has introduced the Nothing Phone (3) ...

The third shooter is a 114˚ 50MP ultrawide lens. Phone (3) is built around a 6.67-inch AMOLED display with FHD+ resolution and a 120Hz adaptive refresh rate.

The Nothing Phone (3) will be officially unveiled on 1 July 2025 where we will see the Glyph Matrix in action, though at least fans can be somewhat rest assured that there's still going to be ...

The device has three 50MP cameras with a 1/1.3-inch main sensor that can capture sharp shots in low light. The 50MP main camera has an aperture of f/1.68, autofocus, OIS, and EIS, and 2x digital zoom.

Instead of the Glyph LEDs that we’ve seen in Phone 1 and Phone 2, the Phone 3 packs 489 tiny LEDs arranged into a grid. It’s no longer just a “look at me” notification tool. It’s an interactive screen ...

Nothing has launched its next-generation flagship smartphone, the Nothing Phone 3. Powered by the Qualcomm Snapdragon 8s Gen 4 chip, the Phone 3 is Nothing’s first “true-flagship” device. Priced at Rs ...

Nothing CEO Carl Pei has raised the curtain over its newest offering: the Phone 3. The Nothing Phone 3 comes with a playful design that’s sure to create a ripple, a new Glyph Matrix on the back panel, ...

Nothing Phone (3): Out with the Glyph Lights, in with the Glyph Matrix One thing that’s been kept the same from its predecessors is its transparent design language, as well as its Black and White ...

Nothing is getting ready to launch its next smartphone, the Nothing Phone (3). The company is known for its unique transparent design and the special Glyph Interface — LED lights on the back of the ...

A model previously developed for pure 0-3 connectivity piezocomposites has been extended to 3-3 connectivity. This matrix method allows the prediction of the effective electroelastic moduli of a ...