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Meet the punk rock version of Device making via Q-Dots.

A wide range of materials can now be synthesized into semiconducting quantum dots. Because these materials grow from solutions, there is scope to combine quantum dots into devices by using simple, low-cost manufacturing processes. Kagan et al. review recent progress in tailoring and combining quantum dots to build electronic and optoelectronic devices. Because it is possible to tune the size, shape, and connectivity of each of the quantum dots, there is potential for fabricating electronic materials with properties that are not available in traditional bulk semiconductors.

Science, this issue p. [885][1]

[1]: http://www.sciencemag.org/content/353/6302/885.full

Continue reading “Building devices from colloidal quantum dots” | >

I can honestly say that many of us working with QC hasn’t warned folks for a while on the hacking risks around QC going against even today’s most sophisticated encryption models & methods; and to be developing a strategy in how to best handle this risk. With last weeks launch by China has shown the world that we are definitely not a decade away from this risk.

Education and planning are key, cyber-security expert Tyler Cohen Wood says.

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Execellent.

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Continue reading “Defect-engineered graphene improves supercapacitors” | >

Every year, humans advance climate change and global warming — and quite likely our own eventual extinction — by injecting about 30 billion tonnes of carbon dioxide into the atmosphere.

A team of scientists from the University of Toronto (U of T) believes they’ve found a way to convert all these emissions into energy-rich fuel in a carbon-neutral cycle that uses a very abundant natural resource: silicon. Silicon, readily available in sand, is the seventh most-abundant element in the universe and the second most-abundant element in the earth’s crust.

The idea of converting to energy isn’t new: there’s been a global race to discover a material that can efficiently convert sunlight, carbon dioxide and water or hydrogen to fuel for decades. However, the of carbon dioxide has made it difficult to find a practical solution.

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A pioneer in the biohacking scene since the mid-2000s, Amal Graafstra’s been experimenting with RFID implants for more than a decade. Now Graafstra is developing implants that go beyond RFIDs.

In episode 2 of Humans+, Motherboard travels to his company Dangerous Things’ garage headquarters to get an early look at UKI, a prototype implant focused on encryption that’s expected to be released in 2017. Amal hopes that this technology will bring us one step closer to merging our physical and digital identities, but how will society react to having these technologies implanted beneath our skin?

WATCH NEXT:
This Mind-Controlled Bionic Arm Can Touch and Feel: http://bit.ly/2bShxqj

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Continue reading “The Man Biohacking Encryption From His Garage” | >