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Showing posts with the label flexible film

Fortnite Mobile: How to download Fortnite for iOS and Android

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If you're looking for a fun gaming fix on the go, why not Fortnite for mobile?
The Epic Games Battle Royale shooter has been available on both iOS and Android devices since 2018. It has transferred the popular game to a wide range of pocket-sized smartphones and tablets.
Getting Fortnite on the phone was a breeze. Fortnite Battle Royale's runaway success, with 100 players appearing as the last fighters on an island map, has already been very successful on Xbox One, Playstation 4 and Nintendo Switch.
Fortunately, Fortnite's cartoon art style can also be easily scaled down to smartphone screens that have never been as competitive as online games - with a goal support option for Fortnite cellphone gamers who mourn the loss of detail at this smaller size.
So Fortnite Mobile is a real thing, and if you're reading this, it's because you want to jump right into the Epic Games mobile game. To that end, we've put together a step-by-step guide to starting your Fortnite mobil…

Soon, wrap your smartphone on the wrist

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Soon you may be able to use your smartphone on your wrist or bend your computer to fit in your pocket! Researchers have taken a step towards more flexible devices by fabricating a thin film that keeps her even when very curved electric and magnetic properties useful.

Flexible electronics have been difficult to manufacture because many materials with useful electronic properties tend to be rigid.

Researchers have addressed this problem by taking small pieces of material such as silicon and embedded in the flexible plastic.

A team of physicists and engineers from South Korea took the same approach with bismuth ferrite (BiFeO3) - one of the most promising materials whose properties can be controlled with a magnetic field, and vice versa.

These materials are called multiferroic and attract interest for applications such as energy efficient, instant-on computing.

The researchers synthesized bismuth ferrite nanoparticles and mixed in a polymer solution. The solution was dried in a series o…