Researchers around the world can tap into a new inter-disciplinary online database of COVID-19 research – allowing them to search for new partners, resources and funding to boost the global battle against the virus.
Launched today, the international open-access database for ongoing research activity COVID CORPUS aims to encourage collaboration and reduce duplication between researchers across all academic disciplines working on Covid-19 research.
Through its easy-to-use interface, the database will allow researchers and funders around the globe to coordinate, collaborate and network to help shape the most effective and efficient response to COVID-19 and its many impacts.
University of Birmingham experts in Computer Science and Medicine worked with the Institute for Global Innovation to create the database, which includes all disciplines of research, including health-related, socio-economic, behavioural, educational, cultural, science and technology.
Fighting COVID-19 requires the academic community to share ideas
Babcock & Wilcox (B&W) (NYSE: BW) announced today that its B&W Environmental segment will design and supply its highly efficient SPIG S.p.A. cooling towers for a pulp mill operated by LD Celulose S.A. in the Triângulo Mineiro region in Brazil. The contract is valued at approximately $2 million.
LD Celulose S.A. is a joint venture between the Austria-based Lenzing Group and the Brazil-based Duratex. The plant will produce 500,000 tons of soluble cellulose annually.
“B&W Environmental’s specialized SPIG cooling solutions can be tailored for the needs of the pulp & paper industry and for soluble cellulose production,” said SPIG Managing Director Alberto Galantini. “We see a growing market for our services in South America, especially in Brazil.”
“For this project, we will provide SPIG cooling tower cells with concrete structures, engineered to meet our customer’s specifications,” Galantini said. “We thank LD Celulose for this opportunity and look forward to a
Transistors based on carbon rather than silicon could potentially boost computers’ speed and cut their power consumption more than a thousandfold — think of a mobile phone that holds its charge for months — but the set of tools needed to build working carbon circuits has remained incomplete until now.
A team of chemists and physicists at the University of California, Berkeley, has finally created the last tool in the toolbox, a metallic wire made entirely of carbon, setting the stage for a ramp-up in research to build carbon-based transistors and, ultimately, computers.
“Staying within the same material, within the realm of carbon-based materials, is what brings this technology together now,” said Felix Fischer, UC Berkeley professor of chemistry, noting that the ability to make all circuit elements from the same material makes fabrication easier. “That has been one of the key things that has been missing in the big
SteelSeries has just launched a wireless version of its more affordable Rival 3 gaming mouse. The wired Rival 3 is a killer budget-friendly gaming mouse with a great sensor and other highlight features, making it a worthy companion for any gamer who doesn’t want to spend big on a pointer.
This new wireless version of the Rival 3 comes rocking some interesting features. Firstly, it has 400-hour battery life. While that’s for standby time, it’s still impressive for a pointer in this price range. SteelSeries managed to achieve this by including a new power-efficient sensor. It’s the first to feature the SteelSeries TrueMoveAir optical sensor.
As well as a great new accurate sensor, SteelSeries also uses Quantum 2.0 Wireless tech, which is essentially 2.4GHz over a USB wireless adapter, allowing for a polling rate of 1000Hz. This is important for sending data from the mouse to your gaming PC to
While the power conversion efficiency of perovskite solar cells (PVSCs)—a future of solar cells—has already greatly improved in the past decade, the problems of instability and potential environmental impact are yet to be overcome. Recently, scientists from City University of Hong Kong (CityU) have developed a novel method which can simultaneously tackle the leakage of lead from PVSCs and the stability issue without compromising efficiency, paving the way for real-life application of perovskite photovoltaic technology.
The research team is co-led by Professor Alex Jen Kwan-yue, CityU’s Provost and Chair Professor of Chemistry and Materials Science, together with Professor Xu Zhengtao and Dr. Zhu Zonglong from the Department of Chemistry. Their research findings were recently published in the scientific journal Nature Nanotechnology, titled “2-D metal-organic framework for stable perovskite solar cells