Tag: Graphene

Impact Lab > Graphene
Engineering, new technology, Science & Technology News, Space, Space Flight

A revolutionary new space launch idea: Introducing The Pythagoras Sling

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The Pythagoras Sling uses a lengthy graphene string pulled via two hoops suspended from simple parachutes to rapidly accelerate a projectile into orbit. Graphene string will likely become widely available over the next two decades. If it works as expected, the Pythagoras Sling launch system could greatly reduce the cost of getting into space compared to any current rocket-based system and could help accelerate space development. Total cost of the fully reusable launch system could be as low as $1M for small and medium sized satellites so cost per kg could be two orders of magnitude cheaper than today. Apart for human spacecraft or more delicate satellites that need low g-forces, the system needs little or no fuel to achieve orbit, only ground electricity, so would be safer and more environmentally friendly as well as cheaper than current rocket-based approaches.

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Biotech, Engineering, Medical Breakthrough

Artificial retinas made of this ultra-thin super material could help millions see again

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TRULY SUPER. There’s a reason researchers call graphene a “super material.” Even though it’s just a single layer of carbon atoms thick, it’s super strong, super flexible, and super light. It also conducts electricity, and is biodegradable. Now an international team of researchers has found a way to use the super material: to create artificial retinas.

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Engineering, Fashion, Wearables

The first graphene jacket is here, and it’s magical

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At 595 euros ($695) a pop, Vollebak’s new graphene jacket isn’t for everyone. But if even half of what its creators promise is true, it could be worth every cent. According to the company, it shares many of the magical properties of graphene–absorbing heat and then warming you up over time, conducting electricity, repelling bacteria, and dissipating your body’s excess humidity. According to Vollebak, it’s the world’s first jacket made out of the notoriously difficult-to-manufacture material.

Graphene is the thinnest possible form of graphite, which you can find in your everyday pencil. It’s purely bi-dimensional, a single layer of carbon atoms that has unbelievable properties that will one day revolutionize everything from aerospace engineering to medicine. Its diverse uses are seemingly endless: It can stop a bullet if you add enough layers. It can change the color of your hair with no adverse effects. It can turn the walls of your home into a giant fire detector. “It’s so strong and so stretchy that the fibers of a spider web coated in graphene could catch a falling plane,” as Vollebak puts it in its marketing materials.

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DaVinci Institute, Futurist, Tom Frey

Interview with Thomas Frey – Futurist Speaker and Executive Director at the DaVinci Institute

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Over the past decade, Thomas Frey has built an enormous following around the world based on his ability to develop accurate visions of the future and describe the opportunities ahead.

His keynote talks on futurist topics have captivated people ranging from high level government officials to executives in Fortune 500 companies including NASA, IBM, AT&T, Hewlett-Packard, Lucent Technologies, First Data, Boeing, Capital One, Bell Canada, Visa, Ford Motor Company, Times of India, and many more.

In his interview with ‘The IoT Magazine’, he touches upon how he is contributing to the world as a futurist, whether machine intelligence will exceed human intelligence in coming times, future trends in IoT and how IoT will change our lives and also talks about his book ‘Epiphany Z’.

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Biotech, Medical Breakthrough, Medicine, new technology

How to grow functioning human muscles from stem cells

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… and microscale robot exoskeleton muscles from graphene and glass.

A cross section of a muscle fiber grown from induced pluripotent stem cells, showing muscle cells (green), cell nuclei (blue), and the surrounding support matrix for the cells (credit: Duke University)

Biomedical engineers at Duke University have grown the first functioning human skeletal muscle from human induced pluripotent stem cells (iPSCs). (Pluripotent stem cells are important in regenerative medicine because they can generate any type of cell in the body and can propagate indefinitely; the induced version can be generated from adult cells instead of embryos.)

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Ecological Products, Engineering, New Inventions

A Graphine roll out

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A new manufacturing process produces strips of graphene, at large scale, for use in membrane technologies and other applications.

MIT engineers have developed a continuous manufacturing process that produces long strips of high-quality graphene.

The team’s results are the first demonstration of an industrial, scalable method for manufacturing high-quality graphene that is tailored for use in membranes that filter a variety of molecules, including salts, larger ions, proteins, or nanoparticles. Such membranes should be useful for desalination, biological separation, and other applications.

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cutting edge, Engineering, Science & Technology News

Unbreakable rubber bands that are 200 times stronger than steel are coming soon

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The world’s largest rubber band manufacturer is putting graphene, the strongest material in the world, into its bands. With the right amount of graphene, the bands will be unbreakable and just as elastic as ordinary bands. Graphene-infused bands hold the ability to embed scannable RFID tags and temperature sensors, and possess anti-static properties.

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Breakthrough Thinking, Business, Energy, Engineering, Hot Issues, Solar Energy, Solar Power

How graphene is going to transform the way we get power

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Futurist Thomas Frey:  In 2002, when Dr. Bor Jang, a little-known researcher in Akron, Ohio, filed his patent for graphene, few people had a clue as to how revolutionary it would be. Certainly not the people at the Nobel Foundation who forgot to check the patent registry and instead awarded the Nobel Prize for graphene to scientists Andre Geim and Kostya Novoselov from the University of Manchester.

As the poster child for the emerging new super materials industry, graphene is a form of ultra thin carbon just one atom thick. If you can imagine something a million times thinner than a single sheet of paper, you get the picture.

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Discover the Hidden Patterns of Tomorrow with Futurist Thomas Frey
Unlock Your Potential, Ignite Your Success.

By delving into the futuring techniques of Futurist Thomas Frey, you’ll embark on an enlightening journey.

Learn More about this exciting program.