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Jan 18, 2022

For BP, car chargers to overtake pumps in profitability race

Posted by in categories: business, sustainability, transportation

LONDON, Jan 14 (Reuters) — BP says its fast electric vehicle chargers are on the cusp of becoming more profitable than filling up a petrol car.

The milestone will mark a significant moment for BP which wants to shift away from oil and expand operations in power markets and around electric vehicles (EV).

EV charging has for years been a loss-making business as a whole for BP and rivals as they invest heavily in its expansion. The division is not expected to turn profitable before 2025 but on a margin basis, BP’s fast battery charging points, which can replenish a battery within minutes, are nearing levels they see from filling up with petrol.

Jan 18, 2022

Free-Space Optical Communication

Posted by in categories: internet, security, space

FSO communication systems are where free space acts as a communication channel between transceivers that are line-of-sight (LOS) for successful transmission of optical signals. The channel can be atmosphere, space, or vacuum, whose characteristics determine the transmission and reception of optical signals for designing reliable and efficient communication systems. Using FSO technology data is transmitted by propagation of light through atmospheric or space communication channels, allowing optical connectivity. FSO communication offers a high data rate to meet the tremendous increasing demand of broadband traffic mostly driven by Internet access and HDTV broadcasting services. Compared to fiber optics technology, FSO offers much more flexibility in designing optical network architectures at very high speeds, at tens and hundreds of Gbit/s rates. However, FSO communication is affected by atmospheric effects, which limits sensitivity and achievable data rates with acceptable BER. Some of these degradations are turbulence, absorption, and scattering, and various mitigation techniques exist for reliable and efficient data transmission [1] and to increase the communication performance. Both point-to-point, point-to-multipoint, multipoint-to-point, and multipoint-to-multipoint FSO communications are possible, depending on the different scenarios of establishing optical links. FSO communication is the most practical alternative to solve the bottleneck broadband connectivity problem. The data rates provided by FSO links continue to increase in both long-and short-range applications. FSO will be one of the most unique and powerful tools to address connectivity bottlenecks that have been created in high-speed networks during the past decade due to the tremendous success and continued acceptance of the Internet. The next generation of Internet connectivity will push the limits of existing infrastructure with high-bandwidth applications such as videoconferencing, streaming multimedia content, and network-enabled portable devices. Clearing these bottlenecks is crucial for the future growth and success of the contemporary Internet society. The bandwidth of optical communications access and edge networks will be needed to satisfy these demands. Communication systems are concerned with the transmission of information from a source to a user. The purpose of a communication system is therefore to transfer information. A very basic block diagram of any communication system (optical or radiofrequency (RF)) is shown in Fig. 4.1.

Fig. 4.1 shows a single point-to-point system, whereas in a multiplexed system there may be multiple input and output message sources and users (also called destinations). Fig. 4.2 shows other possible configurations and links for multipoint connections.

OWC is the next frontier for high-speed broadband connection and offers the following unique features and advantages: high bandwidth/capacity, ease of deployment, compact size, low power, and improved channel security. OWC can transmit and exchange voice and video communication data through the atmosphere/free-space at the rates of tens of Gbit/s and much more.

Jan 17, 2022

Shell replaces fuel pumps with ultra-rapid charge points in London

Posted by in category: energy

Shell has opened its first EV charging hub in Fulham, London, in the UK where petrol and diesel pumps at an existing fuel station have been replaced with ultra-rapid charge points. Read on to find out more about this global pilot.

Jan 17, 2022

Energy Efficient, Transparent Solar Windows: You Really Ain’t Seen Nothing Yet

Posted by in categories: business, solar power, sustainability

Building integrated solar provides businesses with new bottom line opportunities to leverage their properties to attract a new generation of sustainability-focused consumers, and that leaves little space for fossil energy to maneuver.


More than 20 billion square feet of windows are installed every year, and the leading firm Andersen Corporation apparently plans to make some of those billions into energy efficient, transparent solar energy generators that could kick the pace of global energy decarbonization into high gear. The well-known maker of windows and doors just chipped in for a $30 million Series B funding round that will help push the not-so-well-known transparent solar innovator Ubiquitous Energy out of the startup shadows and into the bright sunshine of the global building industries marketplace.

Ubiquitous Energy Hearts Transparent Solar Windows

Continue reading “Energy Efficient, Transparent Solar Windows: You Really Ain’t Seen Nothing Yet” »

Jan 17, 2022

Researchers develop bone growth inspired ‘microrobots’ that can create their own bone

Posted by in category: materials

Inspired by the growth of bones in the skeleton, researchers at the universities of Linkoping in Sweden and Okayama in Japan have developed a combination of materials that can morph into various shapes before hardening. The material is initially soft but later hardens through a bone development process that uses the same materials found in the skeleton.

When we are born, we have gaps in our skulls that are covered by pieces of soft connective tissue called fontanelles. It is thanks to fontanelles that our skulls can be deformed during birth and pass successfully through the birth canal. Post-birth, the fontanelle tissue gradually changes to hard bone. Now, researchers have combined materials that together resemble this natural process. “We want to use this for applications where materials need to have different properties at different points in time. Firstly, the material is soft and flexible, and it is then locked into place when it hardens. This material could be used in, for example, complicated bone fractures. It could also be used in microrobots — these soft microrobots could be injected into the body through a thin syringe, and then they would unfold and develop their own rigid bones”, says Edwin Jager, associate professor at the Department of Physics, Chemistry and Biology (IFM) at Linkoping University.

The idea was hatched during a research visit in Japan when materials scientist Edwin Jager met Hiroshi Kamioka and Emilio Hara, who conduct research into bones. The Japanese researchers had discovered a kind of biomolecule that could stimulate bone growth under a short period of time. Would it be possible to combine this biomolecule with Jager’s materials research, to develop new materials with variable stiffness? In the study that followed, published in Advanced Materials, the researchers constructed a kind of simple “microrobot”, one which can assume different shapes and change stiffness. The researchers began with a gel material called alginate. On one side of the gel, a polymer material is grown. This material is electroactive, and it changes its volume when a low voltage is applied, causing the microrobot to bend in a specified direction.

Jan 17, 2022

These Were Our Favorite Tech Stories From Around the Web in 2021

Posted by in categories: bioengineering, biotech/medical, blockchains, chemistry, cryptocurrencies, internet, mathematics, robotics/AI

Tech companies continued to draw criticism for their roles in political and social scandals, most notably when whisteblower and former Facebook employee Frances Haugen testified to lawmakers. Undeterred, Facebook rebranded itself Meta and said it would now focus on building the metaverse. Twitter CEO Jack Dorsey stepped down and likewise changed the name of his company Square to Block in a not-so-subtle nod to the blockchain.

Meanwhile, volatile cryptocurrencies set new records, their prices jumping and crashing on a tweet. NFTs, a once-obscure type of cryptoasset, went on an eye-watering tear as redditors pushed meme stocks skyward. It was also the year of ever-bigger AI. Machine learning models surpassed a trillion parameters, designed computer chips, and tackled practical problems in biology, math, and chemistry. Elsewhere, billionaires went to space, regular folks bought 3D printed houses, fusion power attracted billions in investment, gene editing trials hit their stride, and “flying car” companies hit the New York Stock Exchange.

For this year’s list of fascinating stories in tech and science, we sifted our Saturday posts and selected articles that looked back to where it all began, glanced ahead to what’s coming, or otherwise stood out from the chatter to stand the test of time.

Jan 17, 2022

KEYTRUDA® (pembrolizumab)

Posted by in category: biotech/medical

Keytruda actually treats 16 types of cancer.


Learn about how KEYTRUDA® (pembrolizumab) works as an immunotherapy to help fight certain cancers.

Jan 17, 2022

Futuristic ‘volar’ eVTOL

Posted by in categories: futurism, transportation

The volar aircraft has a sleek, aerodynamic form that’s more akin to a supercar than other eVTOLs currently in development.

Jan 17, 2022

Google Research: Themes from 2021 and Beyond

Posted by in category: robotics/AI

Over the last several decades, I’ve witnessed a lot of change in the fields of machine learning (ML) and computer science. Early approaches, which often fell short, eventually gave rise to modern approaches that have been very successful. Following that long-arc pattern of progress, I think we’ll see a number of exciting advances over the next several years, advances that will ultimately benefit the lives of billions of people with greater impact than ever before. In this post, I’ll highlight five areas where ML is poised to have such impact. For each, I’ll discuss related research (mostly from 2021) and the directions and progress we’ll likely see in the next few years.

Jan 17, 2022

Tackling ageing may be best way to prevent multiple chronic conditions from developing in older people

Posted by in categories: biotech/medical, life extension

Although multimorbidity differs for each person, we know that patients tend to suffer from the same groups of diseases — known as “clusters”. This suggests that each cluster may share a common underlying cause. For example, a person with multimorbidity may suffer from heart problems (such as heart disease and high blood pressure) and diabetes, which may all stem from the same cause — such as obesity.

Identifying and treating the cause of a patient’s disease clusters would allow us to more effectively combat several — or even all — of the diseases a patient has using a single treatment. This would both reduce the number of medical appointments a person needs to attend and the number of medications they may need to take.


Ageing is the single biggest risk factor for developing multimorbidity.

Continue reading “Tackling ageing may be best way to prevent multiple chronic conditions from developing in older people” »