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May 23, 2020

GM EV Batteries Will Last For 1 Million Miles & Have 600 Mile Range

Posted by in categories: sustainability, transportation

In March, Lauren McDonald was on hand for GM’s EV Day, during which much of the discussion was about the new Ultium batteries GM and LG Chem will be manufacturing at a new battery factory just down the road from the former Lordstown, Ohio assembly plant. That factory is projected to have an annual capacity of 30 gigawatt-hours of battery cells. While GM made a bunch of grandiose claims about its campaign to bring electric cars to market that day, few actual details about the Ultium battery emerged during the presentation.

May 23, 2020

Producing ethane from methane using a photochemical looping strategy

Posted by in categories: chemistry, particle physics

A team of researchers from the University of Lille, CNRS, Centrale Lille, University of Artois, in France, and Keele University in the U.K has developed a way to produce ethane from methane using a photochemical looping strategy. In their paper published in the journal Nature Energy, the group describes their process. Fumiaki Amano with the University of Kitakyushu in Japan has published a News & Views piece on the work done by the team in the same journal issue.

Over the past several years, has become important for the production of fuels and other chemicals. But due to its stability, converting methane to desired products requires high temperatures and results in less-than-desired selectivity. Developing a way to carry out such conversions without the need for energy intensive heat production has been a goal of chemists in the field for several years. Prior research has suggested that methane coupling is an attractive option due to the ease with which it can be dehydrogenated to ethylene. In this new effort, the researchers followed up on such suggestions, and in so doing, have developed a way to produce ethane from methane that overcomes prior problems.

Amano suggests the success factor used by the researchers centered around the development of a three-part nanocomposite material—by adding phosphotungstic acid and silver cations to a traditional TiO2 photocatalyst. The resulting Ag–HPW/TiO2 nanocomposites induced methane coupling which resulted in the production of ethane—and also small amounts of propane and CO2. The final result was a two-stage looping process that was based on photochemical conversions. Amano notes that the process resulted in silver cation reduction to a metallic, which was followed up by reoxidization of a metallic silver species using oxygen that was irradiated with ultraviolet light. He also points out that the HPW coating that was used on the particles was a major factor in improving selectivity, and suggests that the looping redox cycle is similar in some ways to the reactions that happen in rechargeable batteries.

May 23, 2020

New chip brings ultra-low power Wi-Fi connectivity to IoT devices

Posted by in categories: computing, habitats, internet, media & arts, wearables

More portable, fully wireless smart home setups. Lower power wearables. Batteryless smart devices. These could all be made possible thanks to a new ultra-low power Wi-Fi radio developed by electrical engineers at the University of California San Diego.

The device, which is housed in a chip smaller than a grain of rice, enables Internet of Things (IoT) devices to communicate with existing Wi-Fi networks using 5,000 times less than today’s Wi-Fi radios. It consumes just 28 microwatts of power. And it does so while transmitting data at a rate of 2 megabits per second (a connection fast enough to stream music and most YouTube videos) over a range of up to 21 meters.

The team will present their work at the ISSCC 2020 conference Feb. 16 to 20 in San Francisco.

May 23, 2020

Critical “Starbleed” vulnerability in FPGA chips identified

Posted by in categories: computing, encryption, mobile phones, security

April 2020


Field programmable gate arrays, FPGAs for short, are flexibly programmable computer chips that are considered very secure components in many applications. In a joint research project, scientists from the Horst Görtz Institute for IT Security at Ruhr-Universität Bochum and from Max Planck Institute for Security and Privacy have now discovered that a critical vulnerability is hidden in these chips. They called the security bug “Starbleed.” Attackers can gain complete control over the chips and their functionalities via the vulnerability. Since the bug is integrated into the hardware, the security risk can only be removed by replacing the chips. The manufacturer of the FPGAs has been informed by the researchers and has already reacted.

The researchers will present the results of their work at the 29th Usenix Security Symposium to be held in August 2020 in Boston, Massachusetts, U.S… The has been available for download on the Usenix website since April 15, 2020.

Continue reading “Critical ‘Starbleed’ vulnerability in FPGA chips identified” »

May 23, 2020

Ultra-dense optical data transmission over standard fibre with a single chip source

Posted by in categories: computing, quantum physics

Micro-combs — optical frequency combs generated by integrated micro-cavity resonators – offer the full potential of their bulk counterparts, but in an integrated footprint. They have enabled breakthroughs in many fields including spectroscopy, microwave photonics, frequency synthesis, optical ranging, quantum sources, metrology and ultrahigh capacity data transmission. Here, by using a powerful class of micro-comb called soliton crystals, we achieve ultra-high data transmission over 75 km of standard optical fibre using a single integrated chip source. We demonstrate a line rate of 44.2 Terabits s−1 using the telecommunications C-band at 1550 nm with a spectral efficiency of 10.4 bits s−1 Hz−1. Soliton crystals exhibit robust and stable generation and operation as well as a high intrinsic efficiency that, together with an extremely low soliton micro-comb spacing of 48.9 GHz enable the use of a very high coherent data modulation format (64 QAM — quadrature amplitude modulated). This work demonstrates the capability of optical micro-combs to perform in demanding and practical optical communications networks.

May 23, 2020

Microsoft’s FastSpeech AI speeds up realistic voices generation

Posted by in category: robotics/AI

Microsoft’s FastSpeech text-to-speech model generates speech up to 38 times faster than the baseline without sacrificing quality.

May 23, 2020

NASA’s newest test pilots are veteran astronauts, friends

Posted by in category: space travel

CAPE CANAVERAL, Fla. (AP) — The two astronauts who will test drive SpaceX’s brand new rocketship are classmates and friends, veteran spacefliers married to veteran spacefliers, and fathers of young sons.

Together, they will end a nine-year drought for NASA when they blast into orbit next week from Florida’s Kennedy Space Center.

Retired Marine Col. Doug Hurley will be in charge of launch and landing, a fitting assignment for the pilot of NASA’s last space shuttle flight.

May 23, 2020

A.I. can now correctly predict something we think about privately

Posted by in category: robotics/AI

Researchers trained an A.I. on over 31,000 selfies to help it learn how to judge our personalities based on facial features alone.

May 23, 2020

How Do Quantum States Manifest In The Classical World?

Posted by in categories: education, particle physics, quantum physics, space

Education Saturday with Space Time.


This episode of space time is brought to you by the information flowing through an impossibly complex network of quantum entanglement, that just happens to mutually agree that you and I exist inside it. Oh, and Schrodinger’s cat is in here too.

Continue reading “How Do Quantum States Manifest In The Classical World?” »

May 23, 2020

Nano Comes to Life: How Nanotechnology Is Transforming Medicine and the Future of Biology

Posted by in categories: 3D printing, biotech/medical, life extension, nanotechnology, neuroscience, quantum physics

If you’re interested in superlongevity and superintelligence, then I have a book to recommend., by Sonia Contera, is a book about the intersection of biotech and nanotech. Interesting and well written for the layman, the book covers some of the latest developments in nanotechnology as it applies to biological matters. Although there are many topics, I was primarily interested in the DNA nanobots, DNA origami, and the protein nanotechnology sections. My interest is piqued in these arenas due to my expectation that DNA nanobots and protein nanobots, as well as complex self-assembled custom nanostructures, are going to be key to some of the longevity technologies and some of the possible substrates for mind uploading that are key to superlongevity and superintelligence. There are also sections in the book on 3D bioprinted organs — progress and possibilities, as well as difficulties.

There is even a section that clearly was written specifically to address a discussion that has engaged my friends, Dinorah Delfin and Dan Faggella. The title is:

FUTURE DEVICES: QUANTUM PHYSICS MEETS BIOLOGY MEETS NANOTECHNOLOGY

Now, some might be tempted to consider that particular combination to be “woo woo”, however, please keep in mind the author’s credentials. Sonia Contera is a professor of biological physics in the Department of Physics at the University of Oxford.

Continue reading “Nano Comes to Life: How Nanotechnology Is Transforming Medicine and the Future of Biology” »