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GMG receives regulatory approval to enable more significant commercial sales

Graphene Info - Scientific and Educational Websites

Graphene Manufacturing Group (GMG) has announced it has received full and final approval of all its graphene products from the Australian Industrial Chemicals Introduction Scheme (AICIS) of the Australian Government Department of Health and Aged ...

Feb 14, 2023

When the light is neither 'on' nor 'off' in the nanoworld

Nanowerk - Nanotechnology Websites

Detecting exotic states of quantum physics on the size scales of electrical transistors could help in the development of optical quantum technologies of future computer chips.

Feb 14, 2023

Are Black Holes the Giant Quantum Computers of Aliens? Physicists Proposed This Could Be Why Extraterrestrial Civilization Has Not Yet Reached Earth

Science Times - Scientific News Websites

Physicists proposed that advanced extraterrestrial civilizations are using black holes in their quantum computers since they are abundant in quantum information. Read the article to learn more.

Feb 14, 2023

Heterostructured nanoflowers for high-performance sodium storage

Phys.org - Scientific News Websites

A Chinese team has published new work on battery designs employing heterostructured nanoflowers in Energy Material Advances.

Feb 13, 2023

Wireless Chargers Reach For the Megahertz Range ",plain_text=" This article is part of our exclusive IEEE Journal Watch series in partnership with IEEE Xplore.Many people are eagerly looking forward to the day they can stop sifting through a pile of old charging cables to find the one they need. But despite the current success in wirelessly charging small devices like phones, there are several technological challenges that need to be addressed before we can go completely wireless—particularly when it comes to electronics that are more power hungry.In a study published 23 January in the IEEE Journal of Emerging and Selected Topics in Power Electronics, experts in the field outline some ways to overcome these barriers, which include transferring more energy at higher frequencies and optimizing charging efficiency without overheating batteries. Shu-Yuen Ron Hui, a professor at the school of electrical and electronic engineering at Nanyang Technological University, was involved in the study and has been working for decades to standardize wireless power transfer (WPT) technology. Hui says the initial WPT standards released in 2010 simply focused on ensuring that transmitters from one company were compatible with receivers from another company. “However, optimal performance such as maximum efficiency and minimum charging time was not top priority,” he notes.One major hurdle in achieving high efficiency with WPT is the thermal limit of batteries. Typically, batteries require a constant input of voltage and current to be charged, but this can heat up the battery to dangerous levels. For safety reasons, commercial battery chargers will reduce or even stop the charging current when the battery surface temperature reaches its upper limit (typically 45 °C). To address this issue, Hui and his colleagues developed a new temperature-regulated current-control technique that decreases the charging time without overheating the battery. If this technique is widely adopted by manufacturers of WPT electronics, it could help increase the charging efficiency of the technology. A second challenge is transferring more power at once. WPT technology transfers power using an electromagnetic field, and more power can be transferred in a given time frame using higher electromagnetic frequencies. However, this requires hardware that can control the transfer of power at exceptionally high speeds.Whereas existing gate drivers have a latency of about 100 nanoseconds, Hui has developed one with a latency of just 6 ns. The new gate driver, codeveloped with Hui’s colleague Cheng Zhang, at the University of Manchester, also achieves soft-switching. This is a technique that reduces switching loss and stress in the power switches, allowing the use of the gate driver at much higher frequencies. Currently, most WPT power inverters operate at less than 1 megahertz, but the team’s recent invention can go up to tens of megahertz. In their paper, the researchers highlight one other key way in which to optimize WPT technology. They call on manufacturers of transmitters to incorporate efficiency-tracking technology that can help optimize the charging process. One method recently developed by Hui’s team can control transmitters to follow the maximum efficiency operating point of the WPT system dynamically as the battery is being charged. As a result, the WPT system efficiency is optimized for the entire charging process.Together, these new technologies could open a new era for WPT technology. Currently, standards are in place for charging small devices, such as mobile phones, that require 15 watts or less, and plans are underway to create standards for medium-power devices that require about 200 W, such as portable tools, electric bikes, and notebook computers.But the groundwork still needs to be laid for bigger, more power-hungry electronics, and Hui and his colleagues plan to keep forging ahead.“We are currently looking for an industrial partner to develop and evaluate the ultrafast gate-drive circuits [we developed] that allow power inverters to operate up to at least 20 MHz,” says Hui, noting his team has also filed a patent for a printed WPT resonator with an operating frequency in the range of 1 megahertz to tens of megahertz, which could help electronics transfer wireless power in the range of hundreds of watts.

IEEE Spectrum - Scientific and Educational Websites

This article is part of our exclusive IEEE Journal Watch series in partnership with IEEE Xplore. Many people are eagerly looking forward to the day they can stop sifting through a pile of old charging cables to find the one they need. But despit...

Feb 13, 2023

Underdog Technologies Gain Ground in Quantum-Computing Race

Scientific American - Scientific News Websites

Individual atoms trapped by optical ‘tweezers’ are emerging as a promising computational platform

Feb 13, 2023

Chromo-encryption method encodes secrets with color

ScienceDaily - General News Websites

In a new approach to security that unites technology and art, E researchers have combined silver nanostructures with polarized light to yield a range of brilliant colors, which can be used to encode messages.

Feb 13, 2023

$New type of fractal emerges in spin ices – Physics World$

New type of fractal emerges in spin ices – Physics World

Physics World - Nanotechnology Websites

Finding could have applications in magnetocaloric materials, spintronics, information storage and even quantum computing The post New type of fractal emerges in spin ices appeared first on Physics World.

Feb 13, 2023

Chromo-encryption method encodes secrets with color

Nanowerk - Nanotechnology Websites

In a new approach to security that unites technology and art, researchers have combined silver nanostructures with polarized light to yield a range of brilliant colors, which can be used to encode messages.

Feb 13, 2023

Chromo-encryption method uses color to encode information

Phys.org - Scientific News Websites

In a new approach to security that unites technology and art, EPFL researchers have combined silver nanostructures with polarized light to yield a range of brilliant colors, which can be used to encode messages.

Feb 13, 2023