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Bioelectronics: disease monitoring sensors that can be printed directly onto human skin
● With sensors that can be printed directly onto human skin and plant epidermis, advances in bioelectronics are paving the way for new health management and environmental monitoring platforms.
● Developed in Cambridge, spiderweb inspired sensors, which are virtually zero-waste, can be printed on demand and remain robust and functional for several hours.
● Other universities are working on projects combining electronics and living cells, among them the University of Chicago, which has developed an innovative patch for the treatment and remote monitoring of skin conditions like psoriasis.
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● Developed in Cambridge, spiderweb inspired sensors, which are virtually zero-waste, can be printed on demand and remain robust and functional for several hours.
● Other universities are working on projects combining electronics and living cells, among them the University of Chicago, which has developed an innovative patch for the treatment and remote monitoring of skin conditions like psoriasis.
Artificial pollination: robotic solutions that aim to supplement the work of bees
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Tom Chatfield: “AI could lead to a massive pollution of the world’s data and the erasure of trust.”
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Automated intervention reports for augmented technicians thanks to generative AI
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David Caswell: “All journalists should be trained to use generative AI”
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