Lifeboat Foundation

A team of researchers from the Earthquake Research Institute, Department of Civil Engineering and Information Technology Center at the University of Tokyo, and the RIKEN Center for Computational Science and RIKEN Center for Advanced Intelligence Project in Japan were finalists for the coveted Gordon Bell Prize for outstanding achievements in high-performance computing. Tsuyoshi Ichimura together with Kohei Fujita, Takuma Yamaguchi, Kengo Nakajima, Muneo Hori and Lalith Maddegedara were praised for their simulation of earthquake physics in complex urban environments.

Researchers from the Departments of Chemistry and Engineering Science at the University of Oxford have found a general way of predicting enzyme activity. Enzymes are the protein catalysts that perform most of the key functions in Biology. Published in Nature Chemical Biology, the researchers’ novel AI approach is based on the enzyme’s sequence, together with the screening of a defined ‘training set’ of substrates and the right chemical parameters to define them.

Multinational engineering and electronics giant Bosch recently highlighted a new device connectivity method which will work with the Iota marketplace, among other things, for real-time IoT (Internet of Things) data collection and sales.

Data Collection for the IOTA Marketplace

In a recent blog post the firm opened with a quote from 1999 from Nobel Prize winner Milton Friedman extolling the virtues of anonymously transferring funds on the internet, way before cryptocurrencies were even conceived. It continued to elaborate on the Iota ecosystem, its advantages over Bitcoin, and why it has been chosen as a partner.

Continue reading “Bosch Boosts IOTA With New Device Connectivity For IoT Data Collection” »

The write up provides few sources but the phone interview with Mitchell on Fox News is good…

The Sixth Man to walk on the Moon – Edgar Mitchell made fainting claims about alien life when he stated that the existence of the alien visitors is kept a secret from the public, not due to fear of widespread disbelief, rather, a fear that the monetized interests of big business could go into a state of irrelevance if we were given a chance to harbor the technology.

Continue reading “Apollo Astronaut claims Aliens PREVENTED a NUCLEAR WAR on Earth to ensure our existence” »

Inspiration for game-changing science can seemingly come from anywhere. A moldy bacterial plate gave us the first antibiotic, penicillin. Zapping yeast with a platinum electrode led to a powerful chemotherapy drug, cisplatin.

For Dr. Andrew Pelling at the University of Ottawa, his radical idea came from a sci-fi cult classic called The Little Shop of Horrors. Specifically, he was intrigued by the movie’s main antagonist, a man-eating plant called Aubrey 2.

What you have here is a plant-like creature with mammalian features, said Pelling at the Exponential Medicine conference in San Diego last week. “So we started wondering: can we grow this in the lab?”

Continue reading “Ears Grown From Apples? The Promise of Plants for Engineering Human Tissue” »

Miniaturized semiconductor devices with energy harvesting features have paved the way to wearable technologies and sensors. Although thermoelectric systems have attractive features in this context, the ability to maintain large temperature differences across device terminals remains increasingly difficult to achieve with accelerated trends in device miniaturization. As a result, a group of scientists in applied sciences and engineering has developed and demonstrated a proposal on an architectural solution to the problem in which engineered thin-film active materials are integrated into flexible three-dimensional (3D) forms.

The approach enabled efficient thermal impedance matching, and multiplied heat flow through the harvester to increase efficient power conversion. In the study conducted by Kewang Nan and colleagues, interconnected arrays of 3D thermoelectric coils were built with microscale ribbons of the active material monocrystalline silicon to demonstrate the proposed concepts. Quantitative measurements and simulations were conducted thereafter to establish the basic operating principles and key design features of the strategy. The results, now published on Science Advances, suggested a scalable strategy to deploy hard thermoelectric thin-films within energy harvesters that can efficiently integrate with soft material systems including human tissue to develop wearable sensors in the future.

Thermoelectric devices provide a platform to incorporate ubiquitous thermal gradients that generate electrical power. To operate wearable sensors or the “Internet of Things” devices, the temperature gradient between the surrounding environment and the human body/inanimate objects should provide small-scale power supplies. Continued advances in the field focus on aggressive downscaling of power requirements for miniaturized systems to enhance their potential in thermoelectric and energy harvesting applications. Integrated processors and radio transmitters for example can operate with power in the range of subnanowatts, some recent examples are driven via ambient light-based energy harvesting and endocochlear potential. Such platforms can be paired with sensors with similar power to enable distributed, continuous and remote environmental/biochemical monitoring.

Continue reading “Stretchable thermoelectric coils for energy harvesting in miniature flexible wearable devices” »

Purdue University researchers have developed a new flexible and translucent base for silicon nanoneedle patches to deliver exact doses of biomolecules directly into cells and expand observational opportunities.

“This means that eight or nine silicon nanoneedles can be injected into a single cell without significantly damaging a cell. So we can use these nanoneedles to deliver biomolecules into cells or even tissues with minimal invasiveness,” said Chi Hwan Lee, an assistant professor in Purdue University’s Weldon School of Biomedical Engineering and School of Mechanical Engineering.

A surgeon performs surgery on the back of a hand of a patient who has melanoma. Purdue researchers are developing a new flexible and translucent base for silicon patches to deliver exact doses of biomolecules directly into cells and expand observational opportunities. The researchers say skin cancer could be one of the applications for the patches.

Continue reading “New flexible, transparent, wearable biopatch, improves cellular observation, drug delivery” »

This year, more candidates with degrees in science, medicine and engineering ran for Congress than ever before. Of the nearly two-dozen new candidates in this crop, at least seven won seats in the House of Representatives.

This year, scientists, doctors and engineers ran for office like never before. Here’s how they did.

Scientists in Japan have developed the world’s first test that can detect cancers in patient urine samples. The breakthrough technology by Japanese researchers from engineering firm Hitachi has been in development for two years and it may be made available by 2020.

According to Agence France-Presse, the research team will work with Nagoya University to analyze 250 urine samples to check for breast, colon, and childhood forms of the disease in central Japan. The experiments will begin this month and end in September.

Continue reading “Japan Develops World’s First Test to Detect Cancer via Urine Samples” »