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Scientists on the quest to offer more hope for glioblastoma patients may have found a way to stop the growth of the deadly brain tumor. The discovery targets the genes that sustain the tumor growth past the early stages with the drug mithramycin, which may be more effective than the current chemotherapy treatments.

Glioblastoma is the most common and deadly form of primary brain cancer. In glioblastoma, malignant glial cells form vast networks of tendrils throughout the brain, making it nearly impossible to surgically remove all the cancerous tissues. Dubbed as the “octopus tumor,” the tumor can evade even the most aggressive surgeries, chemotherapies, and radiotherapies, leaving patients with a five-year survival rate of less than 10 percent. Patients are in desperate need of better alternatives or supplementary treatments to beat this notoriously deadly cancer.

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Today, sewing relies on the low-tech power of human hands, but soon that may not be the case. Human workers are still needed for the final steps of making clothes, in order to align fabrics and correctly feed them into sewing machines. If robots could do that instead, shock waves of change would surely ripple through global supply chains and disrupt the lives of millions of low-wage earners in the developing world.

For better or worse, plenty of technologists, researchers, and companies are working on the challenge—but so far, getting robots to navigate the imprecisions of flimsy textile materials that easily bend has proven elusive.

One promising solution, though, has come from an unlikely place: the sleepless brain of Jonathan Zornow, a young freelance web developer with no previous background in robotics, manufacturing, or the apparel business. His project, Sewbo, recently demonstrated the world’s first robotically sewn garment, and the inspiration came while watching a late-night Science Channel show called How It’s Made.

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In 24 hours, it seems like all the biotech and futurism news is about telepathy. Guess we all read each other’s mind and posted our research and POVs. too funny.

Using quantum materials and technology will mean less invasive implants and no need for head gear in general. Suggest researchers do some due diligence with some of the various research labs and companies experimenting with things like graphene, liquid quantum materials, etc.

“Even though fMRI cannot read minds yet, we need to start deciding how and why we might want to use it, where screening might help, and where it might violate privacy,” Ms Gottwald, a PHD student at St John’s College at the University of Cambridge said. “Because the technology is advancing so rapidly, these kinds of questions are becoming more and more pressing.

“The aim of the book is to give readers the basics about an exciting and emerging field.

Continue reading “Minority Report-Style Mind Reading Could Soon Be Reality” | >

Graphene cooking oil?

In Brief

  • Researchers have discovered a way to make soybean oil into the super-strong material graphene. The material has a wide variety of potential uses and can revolutionize electronics.
  • The material could be used to make cell phone batteries last 25 percent longer, make more effective solar cells, and even filter fuel out of air.

Researchers have found a way to turn cheap, everyday cooking oil into the wonder material graphene – a technique that could greatly reduce the cost of making the much-touted nanomaterial.

Graphene is a single sheet of carbon atoms with incredible properties – it’s 200 times stronger than steel, harder than diamond, and incredibly flexible. Under certain conditions, it can even be turned into a superconductor that carries electricity with zero resistance.

Continue reading “Scientists Have Turned Cooking Oil Into a Material 200 Times Stronger Than Steel” | >

Luv this.

Researchers at The University of Manchester have developed a method of producing water-based and inkjet printable 2D material inks, which could bring 2D crystal heterostructures from the lab into real-world products.

Examples include efficient light detectors, and devices that are able to store information encoded in binary form which have been demonstrated, in collaboration with the University of Pisa.

Graphene is the world’s first 2D material: 200 times stronger than steel, lightweight, flexible and more conductive of copper. Since graphene’s isolation in 2004 the family of 2D materials has expanded.

Continue reading “Water-based and biocompatible 2D inks for printed electronics” | >

Even meteorologist have jumped on the QC wagon.

And if you ask each of the professionals who pour over layers of data to sift out the details and clues that ensure a correct and trustworthy forecast, the passion began at a young age, and for most, with a distinct weather event.

Here are their stories.

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