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Apr 24, 2016

Scientists can now make lithium-ion batteries last a lifetime

Posted by in category: nanotechnology

Who says playing around is a waste of time?

Researchers at the University of California at Irvine (UCI) said that’s exactly what they were doing when they discovered how to increase the tensile strength of nanowires that could be used to make lithium-ion batteries last virtually forever.

Researchers have pursued using nanowires in batteries for years because the filaments, thousands of times thinner than a human hair, are highly conductive and have a large surface area for the storage and transfer of electrons.

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Apr 24, 2016

San Francisco’s first automated restaurant is ‘pure magic’

Posted by in category: robotics/AI

“It’s pure magic,” Eatsa promises.

At San Francisco’s first fully automated restaurant, meals appear in little glass cubbies, just 90 seconds after customers order and pay on wall-mounted iPads. It’s a human-less experience – no waitstaff, no cashier, no one to get your order wrong and no one to tip.

It’s also a parlor trick.

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Apr 24, 2016

Mirror can tell if you didn’t work out

Posted by in category: futurism

The age of smart mirrors has arrived.


This mirror can tell if you skip the gym.

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Apr 24, 2016

Scientists Use Nanoparticles to Create a ‘Universal Treatment’ for Allergies

Posted by in category: health

A new approach to treating allergies could could not only prevent them, but also strengthen the body’s immune system.

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Apr 24, 2016

Can we replicate the human brain? Scientists create nanoscale electronic synapses for neural networks

Posted by in categories: nanotechnology, neuroscience, robotics/AI

Russian scientists have managed to make nanoscale hafnium oxide-based memristors showcase synaptic properties.

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Apr 24, 2016

Solar cell mystery solved, expected to greatly increase efficiency

Posted by in categories: engineering, solar power, sustainability

(Phys.org)—For the past 17 years, spiro-OMeTAD, has been keeping a secret. Despite intense research efforts, its performance as the most commonly used hole-transporting material in perovskite and dye-sensitized solar cells has remained stagnant, creating a major bottleneck for improving solar cell efficiency. Thinking that the material has given all it has to offer, many researchers have begun investigating alternative materials to replace spiro-OMeTAD in future solar cells.

But in a new study published in Science Advances, Dong Shi et al. have taken a closer look at spiro-OMeTAD and found that it still has a great deal of untapped potential. For the first time, they have grown single crystals of the pure material, and in doing so, they have made the surprising discovery that spiro-OMeTAD’s single-crystal structure has a hole mobility that is three orders of magnitude greater than that of its thin-film form (which is currently used in solar cells).

“This paper reports a major breakthrough for the fields of perovskite and solid-state by finally clarifying the potential performance of the material and showing that improving the crystallinity of the hole transport layer is the key strategy for further breakthroughs in device engineering of these solar cells,” Osman Bakr, a professor of engineering at King Abdullah University of Science and Technology (KAUST) in Saudi Arabia and leader of the study, told Phys.org.

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Apr 24, 2016

Kinetic Wave Power Station

Posted by in category: energy

This power station can harvest kinetic wave energy and turn it into electricity. (Correction: 10 m = 33 ft)

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Apr 24, 2016

How Do We Terraform Jupiter’s Moons?

Posted by in categories: engineering, environmental, space

Jupiter’s four largest moons — the Galileans — have long been considered as possible sites for human habitation, and even terraforming.

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Apr 24, 2016

Elon Musk says Tesla is working on a secret new vehicle that could replace public transport

Posted by in categories: Elon Musk, sustainability, transportation

While speaking at a transport conference in Norway this week, Elon Musk articulated that Tesla’s plan to revolutionize the transportation industry is much broader and more ambitious than initially assumed. In other words, if you thought Tesla’s master plan to usher in an EV revolution was going to end once the Model 3 hit mass production, think again.

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Far from it, Tesla is just getting started. Not only have we heard reports that Tesla is eyeing a crossover vehicle based on the Model 3, Musk has also suggested that a Tesla pickup truck might also be a possibility later on down the line.

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Apr 23, 2016

EGFRvIII-Specific Chimeric Antigen Receptor T Cells Migrate to and Kill Tumor Deposits Infiltrating the Brain Parenchyma in an Invasive Xenograft Model of Glioblastoma

Posted by in categories: biotech/medical, genetics, neuroscience

Sharing for fellow researchers and others who have interest in GBM news.


Glioblastoma (GBM) is the most common primary malignant brain tumor in adults and is uniformly lethal. T-cell-based immunotherapy offers a promising platform for treatment given its potential to specifically target tumor tissue while sparing the normal brain. However, the diffuse and infiltrative nature of these tumors in the brain parenchyma may pose an exceptional hurdle to successful immunotherapy in patients. Areas of invasive tumor are thought to reside behind an intact blood brain barrier, isolating them from effective immunosurveillance and thereby predisposing the development of “immunologically silent” tumor peninsulas. Therefore, it remains unclear if adoptively transferred T cells can migrate to and mediate regression in areas of invasive GBM. One barrier has been the lack of a preclinical mouse model that accurately recapitulates the growth patterns of human GBM in vivo. Here, we demonstrate that D-270 MG xenografts exhibit the classical features of GBM and produce the diffuse and invasive tumors seen in patients. Using this model, we designed experiments to assess whether T cells expressing third-generation chimeric antigen receptors (CARs) targeting the tumor-specific mutation of the epidermal growth factor receptor, EGFRvIII, would localize to and treat invasive intracerebral GBM. EGFRvIII-targeted CAR (EGFRvIII+ CAR) T cells demonstrated in vitro EGFRvIII antigen-specific recognition and reactivity to the D-270 MG cell line, which naturally expresses EGFRvIII. Moreover, when administered systemically, EGFRvIII+ CAR T cells localized to areas of invasive tumor, suppressed tumor growth, and enhanced survival of mice with established intracranial D-270 MG tumors. Together, these data demonstrate that systemically administered T cells are capable of migrating to the invasive edges of GBM to mediate antitumor efficacy and tumor regression.

Glioblastoma (GBM) is the most common form of primary malignant brain tumor in adults and remains one of the most deadly neoplasms. Despite multimodal therapy including maximal surgical resection, radiation, and temozolomide (TMZ), the median overall survival is less than 15 months [1]. Moreover, these therapies are non-specific and are ultimately limited by toxicity to normal tissues [2]. In contrast, immunotherapy promises an exquisitely precise approach, and substantial evidence suggests that T cells can eradicate large, well-established tumors in mice and humans [3] [7].

Continue reading “EGFRvIII-Specific Chimeric Antigen Receptor T Cells Migrate to and Kill Tumor Deposits Infiltrating the Brain Parenchyma in an Invasive Xenograft Model of Glioblastoma” »