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Jul 18, 2016

Exploring superconducting properties of 3D printed parts

Posted by in categories: 3D printing, biotech/medical, computing, transportation

3D print materials and products with superconducting properties is truly a breakthrough towards the mass production of various complex materials. I see this as a large step forward for 3D and placing things on an evolution track to even mass produce synthetic diamonds.


3D printing is revolutionizing many areas of manufacturing and science. In particular, 3D printing of metals has found novel applications in fields as diverse as customized medical implants, jet engine bearings and rapid prototyping for the automotive industry.

While many techniques can be used for 3D printing with metals, most rely on computer-controlled melting or sintering of a metal alloy powder by a laser or electron beam. The mechanical properties of parts produced by this method have been well studied, but not enough attention has focused on their electrical properties.

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Jul 18, 2016

Research breakthrough towards ‘practical’ quantum computing future

Posted by in categories: computing, quantum physics

This truly makes QC more practical on many fronts. First, no need for QC to reside in an “icebox” room/ environment. Second, with the recent findings on making quantum computing scalable; we now have a method in place to not make QC devices over heat as well. So, again another major step forward by Sydney and their partners in Switzerland and Germany.

http://www.itwire.com/development/73884-research-breakthroug…uture.html


A group of international researchers, including a leading research from the University of Sydney, has made a breakthrough discovery, making a conducting carbon material that they demonstrated could be used to perform quantum computing at room temperature, rather than near absolute zero (−273°C).

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Jul 18, 2016

New Technique Developed for Effective Dye Removal and Low-Cost Water Purification

Posted by in categories: biotech/medical, nanotechnology, particle physics

Purifying H2O more cheaply.


WASHINGTON—()—Organic compounds in wastewater, such as dyes and pigments in industry effluents, are toxic or have lethal effect on aquatic living and humans. Increasing evidence has shown that the organic contaminants discharged from electroplating, textile production, cosmetics, pharmaceuticals are the main reasons for the higher morbidity rates of kidney, liver, and bladder cancers, etc. Organic contaminants, especially methyl blue and methyl orange, are stable to light, heat or oxidizing agents and very difficult to remove by conventional chemical or biological wastewater treatment techniques. Recently scientists have developed some new strategies with good dye-removal performance; however, a subsequent adsorbent purification procedure is unavoidable after water treatment, which are often complicated and not suitable for practical water treatment.

Now, using laser-induced fabrication technique, a team of Chinese researchers from Shandong University, China, have developed a novel dye adsorbent. Hybrid nano-particles of silver and silver sulfide (Ag2S@Ag hybrid nano-particles) have demonstrated the nanomaterial’s superior adsorption performance for removing methyl blue and methyl orange from wastewater. More importantly, the new adsorbents can be removed directly from solutions by filters without adsorbent purification procedures, as the silver-based hybrid nano-particles will be agglomerated and deposited on the bottom after adsorbing dyes, providing a green, simple, rapid and low-cost solution for water purification. This week in the journal Optical Materials Express, from The Optical Society (OSA), the researchers describe the work.

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Jul 18, 2016

‘Smart’ thread collects diagnostic data when sutured into tissue

Posted by in categories: biotech/medical, chemistry, computing, health, mobile phones, nanotechnology, wearables

Way cool! Your stitches monitors and reports your progress to your doctor/s.

BTW — In 1999, I told a guy from Diamond Intl. that the thread in our clothing would be able to do this in the next 15 to 20 years. He laughed at me; never say never.


For the first time, researchers led by Tufts University engineers have integrated nano-scale sensors, electronics and microfluidics into threads — ranging from simple cotton to sophisticated synthetics — that can be sutured through multiple layers of tissue to gather diagnostic data wirelessly in real time, according to a paper published online July 18 in Microsystems & Nanoengineering. The research suggests that the thread-based diagnostic platform could be an effective substrate for a new generation of implantable diagnostic devices and smart wearable systems.

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Jul 18, 2016

Has the Tech Industry Got Wearables All Wrong?

Posted by in categories: business, transportation, wearables

Personally, I wouldn’t state that tech got the whole wearables wrong; its more been operated in a mode of experimentation with the public in an order to perfect the technology. I believe we’re now on a track to broaden this technology to accommodate more consumers on multiple levels such as business travelers may wish to have suits and bus attire that self cleans and can (when your wearing and biosensor is activated) be leveraged to store your id information or when you’re processed through airports instead of having to juggle for your license/ passport.


The key to unlocking the $150 billion wearables market is textiles not silicon.

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Jul 18, 2016

Why Tactile Intelligence Is the Future of Robotic Grasping

Posted by in categories: neuroscience, robotics/AI

Better tactile capabilities, not just vision, will let robots grasp any object.

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Jul 18, 2016

Robot therapist hits the spot with athletes

Posted by in categories: 3D printing, biotech/medical, robotics/AI

Perfect; I actually was thinking about robots as personal trainers and sparring partners for boxers. I love boxing as a workout and had thought about having a robot as a sparring partner as well as my weight/ strength training.

BTW — another concept is to build into the weight training machines AI technology to assist users. Think about if the machine sensors that the users’ muscle is about to strain that the machine takes the weight off or lightens the weight on the user of the equipment. And, if the machine senses that the person is about to have an heart attack, etc. that the equipment contacts 911, etc.


Trials of a prototype robot for sports therapy have just begun in Singapore, to create a high quality and repeatable treatment routine to improve sports recovery, reducing reliance on trained therapists.

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Jul 18, 2016

Crawling robot built from sea slug parts and a 3D printed body

Posted by in categories: 3D printing, neuroscience, robotics/AI

Researchers at Case Western Reserve University have combined tissues from a sea slug with flexible 3D printed components to build “biohybrid” robots that crawl like sea turtles on the beach.

A muscle from the slug’s mouth provides the movement, which is currently controlled by an external electrical field. However, future iterations of the device will include ganglia, bundles of neurons and nerves that normally conduct signals to the muscle as the slug feeds, as an organic controller.

The researchers also manipulated collagen from the slug’s skin to build an organic scaffold to be tested in new versions of the robot.

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Jul 18, 2016

Organisms might be quantum machines

Posted by in category: quantum physics

Few of us really understand the weird world of quantum physics – but our bodies might take advantage of quantum properties.

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Jul 18, 2016

Quantum Computing With Mothballs: Scientists Find A Way To Stabilize Electron Spins At Room Temperature

Posted by in categories: computing, quantum physics

A team of researchers has overcome a key challenge — how to build a quantum computer that is capable of functioning at room temperature.

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