DNA robots get sophisticated

Scientists are one step closer to creating molecular robots that can one day build nanomolecules or deliver drugs to target tissues.

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Nanoscale “stealth” probe

Engineers have created a nanoscale probe they can implant in a cell wall without damaging the wall.

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Sugar within human bodies could power future artificial organs

A new approach to tiny fuel cells implanted in rats enables the devices to generate electricity for months using sugar in the rodents' bodies.

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Stem-cell dental implants grow new teeth right in your mouth

A new technique uses the body's own stem cells to regenerate teeth.

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The doctor is out, but new patient monitoring and robotics technology is in

New technology like smart pills, a wireless heart monitor and a robotic surgical assistant could radically reshape patient care.

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Some of nature’s little tricks

Nature makes materials, and so do we. But Nature's materials are very different from ours.

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Nanotube "fuzz" boosts optical performance

Carbon and gold join forces in photonic metamaterial.

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Self-powered sensors

Just 700 rows of piezoelectric nanowires could power a nanoscopic sensor, according to new research. A team has developed two types of self-powered sensor: one can measure pH, the other can detect incident ultraviolet light.

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12 events that will change everything, made interactive

This Web-only article is a special rich-media presentation of the feature "12 Events That Will Change Everything", which appeared in the June 2010 issue of Scientific American.

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Is this life?

We're opening up our archives, and returning to our 2006 article on the progress and challenges of synthetic biology, in honor of last month's landmark announcement.

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Synthetic bio, meet "FBIo"

You may soon be visited by an FBI agent, or a scientist acting on behalf of one. Here's why.

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Thinking outside of the toy box: 4 children's gizmos that inspired scientific breakthroughs

Brilliant minds reach back to childhood to help them develop tiny transistors, study particle separation, make microfluidics devices, and fight cancer.

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Bioceramic may aid bone repair

A strontium-based bioactive glass platform appears to promote osteoblast cell activity and proliferation, according to data from an in vitro study.

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Belgian hospital is first in country to complete heart implant training

The only total artificial heart to have received approval from the USA, Canada and Europe, the SynCardia temporary CardioWest heart, is now ready for implantation for the first time in Belgium.

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Study shows positive results for urinary implant

A urethral bulking agent has demonstrated a high level of effectiveness in the treatment of stress urinary incontinence (SUI) in women.

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Coming soon: A synthetic brain built from tens of thousands of smartphone chips

Ubiquitous microprocessors learn how to learn.

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Artificial brains are imminent...not!

John Horgan has his doubts that we're close to building artificial brains, as an April 2010 article asserted.

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"Eudamed" - Europe’s long-awaited Medical Devices database is a reality

First conceived in 1998, Eudamed is a secure web-based portal acting as a central repository for information exchange between national competent authorities and the European Commission.

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Pushing droplets around: Surface science

Controlling the way liquids spread across a surface is important for a wide variety of technologies, including DNA microarrays for medical research, inkjet printers and digital lab-on-a-chip systems. But until now, the designers of such devices could only control how much the liquid would spread out over a surface, not which way it would go.

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Flexible nanoparticle-reinforced elastomers launched

A range of tough and flexible, nanoparticle-reinforced thermoplastic elastomers, which have been formulated for increased push and torque performance when employed in catheter devices, has been developed.

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Designing polymer surfaces via vapor deposition

Chemical Vapor Deposition (CVD) methods significantly augment the capabilities of traditional surface modification techniques for designing polymeric surfaces. In CVD polymerization, the monomer(s) are delivered to the surface through the vapor phase and then undergo simultaneous polymerization and thin film formation.

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Applying physics to biology: Optical tweezers and single-molecule biophysics

A research team is pioneering a new area of biology known as single-molecule biophysics. Underpinning that endeavour are laser-based optical tweezers (also known as optical traps) used to capture, measure and manipulate proteins and nucleic acids one molecule at a time.

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Breakthrough in fluorescent microscopy: Characterization

A team of researchers has developed a new technique of fluorescence microscopy for observing objects on the nanoscale, and have also produced a new series of photostable dyes that can be used as fluorescent markers.

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