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Researchers have advanced a decades-old challenge in the field of organic semiconductors, opening new possibilities for the future of electronics.

Researchers have developed next-generation smart textiles – incorporating LEDs, sensors, energy harvesting, and storage – that can be produced inexpensively, in any shape or size, using the same machines used to make the clothing we wear every day.

Researchers have developed a new method to display highly realistic holographic images using ‘holobricks’ that can be stacked together to generate large-scale holograms.

Researchers have developed a 46-inch (116cm) woven display with smart sensors, energy harvesting and storage integrated directly into the fabric.

Researchers from the ̽»¨Ö±²¥ of Cambridge are working with Jaguar Land Rover to develop next-generation head-up display technology that could beam real-time safety information in front of the driver, and allow passengers to stream 3D movies directly from their seats as part of a shared, autonomous future.

Stuart Higgins (Cavendish Laboratory) discusses the technology being developed to create flexible displays.

Researchers from the ̽»¨Ö±²¥ of Cambridge have designed a new type of pixel element and demonstrated its unique switching capability, which could make three-dimensional holographic displays possible.

A flexible display incorporating graphene in its pixels’ electronics has been successfully demonstrated by the Cambridge Graphene Centre and Plastic Logic, the first time graphene has been used in a transistor-based flexible device.