Tag Archives: biotechnology

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Viruses for nanotech components

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virusTurns out viruses are good for more than just killing cancer cells. Researchers at MIT have developed a method whereby viruses are coated with iron phosphate, then attached to carbon nanotubes, thus creating  the building-blocks of nanoscale electrical components:

This advanced ‘bio-industrial’ manufacturing process, which uses biological agents to assemble molecules, could help to evolve key energy material components (e.g. cathodes, anodes, membranes) used in batteries, fuel cells, solar cells and organic electronics (e.g. OLEDs).

It’s interesting to see how researchers are making use of the native biological territory instead of reinventing the wheel when it comes to nanotechnology – using viruses to make nanomaterials to make power cells.

[from Future Blogger][image from noii’s on flickr]

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Biotech to the stars

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dendritesCentauri Dreams discusses a DNA-based self-replicating interstellar probe:

Think of a probe that gets around the payload mass problem by using molecular processes to create cameras and imaging systems not by mechanical nanotech but by inherently biological methods.

A Von Neumann self-replicating probe comes to mind, but we may not have to go to that level in our earliest iterations. The biggest challenge to our interstellar ambitions is propulsion, with the need to push a payload sufficient to conduct a science mission to speeds up to an appreciable percentage of lightspeed. The more we reduce payload size, the more feasible some missions become

This is similar to Robert L. Forward‘s starwisp concept (popularised by Charlie Stross in Accelerando).

I suspect that if and when we do get round to interstellar exploration it will involve sending small-mass packages that are capable of bootstrapping themselves to a broadcast/exploration mode using local materials on arrival in the target system.

It remains to be seen what kind of space-based molecular replicating systems become viable. Will we be able to create space-hardened bioware, or good ol’ fashioned machine phase fullerene nanotech?

[image from neurollero on flickr]

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Lungs out of body experience

lungA new technique for storing lungs outside the human body has been developed by the Toronto General Hospital:

In an operating room at the hospital, the technology can keep a pair of human lungs slowly breathing inside a glass dome attached to a ventilator, pump, and filters.

The lungs are maintained at normal body temperature of 37 °C and perfused with a bloodless solution that contains nutrients, proteins, and oxygen.

The organs are kept alive in the machine, developed with Vitrolife, for up to 12 hours while surgeons assess function and repair them.

It is hoped that this process will mean lungs intended for transplant are more likely to be usable. According to the Technology Review article as few as one in ten lungs for transplant are usable with existing cooling-based preservation techniques.

[via Next Big Future, article from Technology Review][image from Technology Review]

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Bionic eye breakthrough

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eye_closeUS company Second Sight have developed a bionic eye system that allows a man who has been blind for 30 years to see flashes of light:

He says he can now follow white lines on the road, and even sort socks, using the bionic eye, known as Argus II. It uses a camera and video processor mounted on sunglasses to send captured images wirelessly to a tiny receiver on the outside of the eye.

The Argus II is designed to help sufferers of retinitis pigmentosa, a degenerative eye condition.

[article form the BBC][image from Mazintosh – Fotogranada on flickr]

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The small world in our hands

wirelessmicrScientists at John Hopkins University, Maryland have developed minute hands that can grasp tiny pieces of tissue when exposed to particular chemicals:

The researchers describe development of tiny metallic microgrippers shaped like a hand that work without electricity. The grippers are about 0.03 inches wide when open — smaller than the diameter of a grain of sand and made from a gold-coated nickel “palm” joined by six pointy metallic “fingers.”

The addition of certain chemicals triggers the hands to open or close. In laboratory studies, the scientists demonstrated that the grippers could grasp and release tiny pipes and glass beads and transport these objects to distant locations with the aid of a magnet, showcasing their potential for pick-and-place operations that are ubiquitous in manufacturing, they say.

The field is apparently called Micro-Chemo-Mechanical-Systems (MCMS) and along with Micro-Electro-Mechanical-Systems (MEMS) is set to have a major impact over the next several decades, particularly in the realm of health and medicine:

…the untethered grippers devised by Gracias’ team contain gold-plated nickel, allowing them to be steered by magnets outside the body. “With this method, we were able to remotely move the microgrippers a relatively long distance over tissue without getting stuck, he said. “Additionally, the microgrippers are triggered to close and extricate cells from tissue when exposed to certain biochemicals or biologically relevant temperatures.”

[from Physorg][image from the Physorg article][also check out the paper for more technical details]