News in Brief
Computer Science - Jan 22
Research at the forefront of next generation 3D printing and digital drawing
Research at the forefront of next generation 3D printing and digital drawing
Social Sciences - Jan 22
Social media bans, restrictions have mixed impact on potential misinformation following Capitol riot
Social media bans, restrictions have mixed impact on potential misinformation following Capitol riot
Life Sciences - Jan 21
Genomics: sequencing of the giant genome of the Australian lungfish shed a new light on the land conquest by vertebrates
Genomics: sequencing of the giant genome of the Australian lungfish shed a new light on the land conquest by vertebrates
news
« BACK
Physics - Materials Science - 22.01.2021
Materials Science - Environment - 22.01.2021
Materials Science - Computer Science - 21.01.2021
Health - Materials Science - 21.01.2021
Chemistry - Materials Science - 14.01.2021
Physics - Materials Science - 13.01.2021
Chemistry - Materials Science - 04.01.2021
Chemistry - Materials Science - 04.01.2021
Physics - Materials Science - 29.12.2020
Life Sciences - Materials Science - 23.12.2020
Physics - Materials Science - 22.12.2020
Environment - Materials Science - 17.12.2020
Physics - Materials Science - 15.12.2020
Physics - Materials Science - 14.12.2020
Physics - Materials Science - 09.12.2020
Environment - Materials Science - 09.12.2020
Health - Materials Science - 09.12.2020
Environment - Materials Science - 06.12.2020
Life Sciences - Materials Science - 03.12.2020
Physics - Materials Science - 30.11.2020
Materials Science
Results 1 - 20 of 637.
Crystal structures in super slow motion
Physicists from Göttingen first to succeed in filming a phase transition with extremely high spatial and temporal resolution Laser beams can be used to change the properties of materials in an extremely precise way. This principle is already widely used in technologies such as rewritable DVDs. However, the underlying processes generally take place at such unimaginably fast speeds and at such a small scale that they have so far eluded direct observation.
Physicists from Göttingen first to succeed in filming a phase transition with extremely high spatial and temporal resolution Laser beams can be used to change the properties of materials in an extremely precise way. This principle is already widely used in technologies such as rewritable DVDs. However, the underlying processes generally take place at such unimaginably fast speeds and at such a small scale that they have so far eluded direct observation.
Secrets to solar success
A new study shows how researchers at The Australian National University (ANU) achieved a world record in solar cell efficiency. The study focused on perovskite solar cells - made using a special group of materials which are cheap and easy to manufacture.
A new study shows how researchers at The Australian National University (ANU) achieved a world record in solar cell efficiency. The study focused on perovskite solar cells - made using a special group of materials which are cheap and easy to manufacture.
New metamaterial offers reprogrammable properties
Scientists have developed a metamaterial whose mechanical properties can be reprogrammed on demand and whose internal structure can be modified by applying a magnetic field. Over the past 20 years, scientists have been developing metamaterials, or materials that don't occur naturally and whose mechanical properties result from their designed structure rather than their chemical composition.
Scientists have developed a metamaterial whose mechanical properties can be reprogrammed on demand and whose internal structure can be modified by applying a magnetic field. Over the past 20 years, scientists have been developing metamaterials, or materials that don't occur naturally and whose mechanical properties result from their designed structure rather than their chemical composition.
Making Masks Smarter and Safer Against COVID-19
A new tool for monitoring COVID-19 may one day be right under your nose. Researchers at the University of California San Diego are developing a color-changing test strip that can be stuck on a mask and used to detect SARS-CoV-2 in a user's breath or saliva. The project, which received $1.3 million from the National Institutes of Health, is aimed at providing simple, affordable and reliable surveillance for COVID-19 infections that can be done daily and easily implemented in resource-poor settings.
A new tool for monitoring COVID-19 may one day be right under your nose. Researchers at the University of California San Diego are developing a color-changing test strip that can be stuck on a mask and used to detect SARS-CoV-2 in a user's breath or saliva. The project, which received $1.3 million from the National Institutes of Health, is aimed at providing simple, affordable and reliable surveillance for COVID-19 infections that can be done daily and easily implemented in resource-poor settings.
New Research Technique Sheds Light on Least Understood Part of Lithium Batteries
One of the aspects of lithium-ion batteries least understood by scientists has now been elucidated by a new research approach, opening the door to major improvements in battery performance, according to a new study by Berkeley Lab scientists. Their study, recently published in the journal Joule, used a technique developed by Berkeley Lab battery scientists in the Energy Technologies Area to illustrate the structures of large organic molecules generated during battery operation.
One of the aspects of lithium-ion batteries least understood by scientists has now been elucidated by a new research approach, opening the door to major improvements in battery performance, according to a new study by Berkeley Lab scientists. Their study, recently published in the journal Joule, used a technique developed by Berkeley Lab battery scientists in the Energy Technologies Area to illustrate the structures of large organic molecules generated during battery operation.
Shine On: Avalanching Nanoparticles Break Barriers to Imaging Cells in Real Time
Study co-led by Berkeley Lab and Columbia Engineering could lead to simple, high-resolution bioimaging in real time by overcoming a fundamental property of light Since the earliest microscopes, scientists have been on a quest to build instruments with finer and finer resolution to image a cell's proteins - the tiny machines that keep cells, and us, running.
Study co-led by Berkeley Lab and Columbia Engineering could lead to simple, high-resolution bioimaging in real time by overcoming a fundamental property of light Since the earliest microscopes, scientists have been on a quest to build instruments with finer and finer resolution to image a cell's proteins - the tiny machines that keep cells, and us, running.
Innovative Battery Chemistry Revolutionises Zinc-Air Battery
High-performance, eco-friendly, safe and at the same time cost-effective: the zinc-air battery is an attractive energy storage technology of the future. Until now, the conventional zinc-air battery has struggled with a high chemical instability, parasitic reactions which rooted in the usage of alkaline electrolytes lead to electrochemical irreversibility.
High-performance, eco-friendly, safe and at the same time cost-effective: the zinc-air battery is an attractive energy storage technology of the future. Until now, the conventional zinc-air battery has struggled with a high chemical instability, parasitic reactions which rooted in the usage of alkaline electrolytes lead to electrochemical irreversibility.
Supercapacitors challenge batteries
Powerful graphene hybrid material for highly efficient supercapacitors A team working with Roland Fischer, Professor of Inorganic and Metal-Organic Chemistry at the Technical University Munich (TUM) has developed a highly efficient supercapacitor. The basis of the energy storage device is a novel, powerful and also sustainable graphene hybrid material that has comparable performance data to currently utilized batteries.
Powerful graphene hybrid material for highly efficient supercapacitors A team working with Roland Fischer, Professor of Inorganic and Metal-Organic Chemistry at the Technical University Munich (TUM) has developed a highly efficient supercapacitor. The basis of the energy storage device is a novel, powerful and also sustainable graphene hybrid material that has comparable performance data to currently utilized batteries.
Detective work in theoretical physics
Scientific articles in the field of physics are mostly very short and deal with a very restricted topic. A remarkable exception to this is an article published recently by physicists from the Universities of Münster and Düsseldorf. The article is 127 pages long, cites a total of 1075 sources and deals with a wide range of branches of physics - from biophysics to quantum mechanics.
Scientific articles in the field of physics are mostly very short and deal with a very restricted topic. A remarkable exception to this is an article published recently by physicists from the Universities of Münster and Düsseldorf. The article is 127 pages long, cites a total of 1075 sources and deals with a wide range of branches of physics - from biophysics to quantum mechanics.
Scientists pioneer new method of measuring electricity in cells
Electricity is a key ingredient in living bodies. We know that voltage differences are important in biological systems; they drive the beating of the heart and allow neurons to communicate with one another. But for decades, it wasn't possible to measure voltage differences between organelles-the membrane-wrapped structures inside the cell-and the rest of the cell.
Electricity is a key ingredient in living bodies. We know that voltage differences are important in biological systems; they drive the beating of the heart and allow neurons to communicate with one another. But for decades, it wasn't possible to measure voltage differences between organelles-the membrane-wrapped structures inside the cell-and the rest of the cell.
Berkeley Lab’s Top 10 Science Stories of 2020
It was a year dominated by COVID-19 research, along with some beetles, batteries, and a Nobel Prize T he coronavirus pandemic has taught us many valuable lessons this year, and perhaps foremost among them is the importance of science. Researchers at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have always strived to find science-based solutions for society's most pressing issues.
It was a year dominated by COVID-19 research, along with some beetles, batteries, and a Nobel Prize T he coronavirus pandemic has taught us many valuable lessons this year, and perhaps foremost among them is the importance of science. Researchers at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have always strived to find science-based solutions for society's most pressing issues.
How to power up battery manufacturing in India
India will need to make the switch from coal to renewable energy to meet its ambitious decarbonization goals. Batteries could be key to meeting these targets and represent an opportunity to develop the country's battery manufacturing industry. India is one of only a few countries whose national emissions reduction target is in line with the Paris Agreement's goal of reducing global warming before Earth's temperature reaches a dangerous threshold.
India will need to make the switch from coal to renewable energy to meet its ambitious decarbonization goals. Batteries could be key to meeting these targets and represent an opportunity to develop the country's battery manufacturing industry. India is one of only a few countries whose national emissions reduction target is in line with the Paris Agreement's goal of reducing global warming before Earth's temperature reaches a dangerous threshold.
Weak force has strong impact on nanosheets
Rice lab finds van der Waals force can deform nanoscale silver for optics, catalytic use You have to look closely, but the hills are alive with the force of van der Waals. Rice University scientists found that nature's ubiquitous "weak" force is sufficient to indent rigid nanosheets, extending their potential for use in nanoscale optics or catalytic systems.
Rice lab finds van der Waals force can deform nanoscale silver for optics, catalytic use You have to look closely, but the hills are alive with the force of van der Waals. Rice University scientists found that nature's ubiquitous "weak" force is sufficient to indent rigid nanosheets, extending their potential for use in nanoscale optics or catalytic systems.
When less is more: a single layer of atoms boosts the nonlinear generation of light
A wide array of technologies, ranging from lasers and optical telecommunication to quantum computing rely on nonlinear optical interaction. Typically, these nonlinear interactions, which allow a beam of light, for example, to change its frequency, are implemented by bulk materials. In a new study an international research team led by the University of Vienna have shown that structures built around a single layer of graphene allow for strong optical nonlinearities that can convert light.
A wide array of technologies, ranging from lasers and optical telecommunication to quantum computing rely on nonlinear optical interaction. Typically, these nonlinear interactions, which allow a beam of light, for example, to change its frequency, are implemented by bulk materials. In a new study an international research team led by the University of Vienna have shown that structures built around a single layer of graphene allow for strong optical nonlinearities that can convert light.
"Game changer" perovskite can detect gamma rays
Scientists at EPFL have developed a game-changing perovskite material that can be used as a cheaper and highly efficient alternative to gamma-ray detectors. Perovskites are materials made up of organic compounds bound to a metal. Propelled into the forefront of materials' research because of their structure and properties, perovskites are earmarked for a wide range of applications, including in solar cells, LED lights, lasers, and photodetectors.
Scientists at EPFL have developed a game-changing perovskite material that can be used as a cheaper and highly efficient alternative to gamma-ray detectors. Perovskites are materials made up of organic compounds bound to a metal. Propelled into the forefront of materials' research because of their structure and properties, perovskites are earmarked for a wide range of applications, including in solar cells, LED lights, lasers, and photodetectors.
New research project on environmental and safety aspects of stationary energy storage
The SABATLE project coordinated by TU Graz focuses on the sustainability and safety of redox flow technologies, which are of immanent importance for the stabilization of the power grid. The increasing use of battery technologies in the mobility sector and in stationary applications has been leading to increasing efforts in battery research of operational safety and battery recycling.
The SABATLE project coordinated by TU Graz focuses on the sustainability and safety of redox flow technologies, which are of immanent importance for the stabilization of the power grid. The increasing use of battery technologies in the mobility sector and in stationary applications has been leading to increasing efforts in battery research of operational safety and battery recycling.
This Anti-COVID Mask Breaks the Mold
Scientists from Berkeley Lab and UC Berkeley have designed a rechargeable N95 mask with a custom fit In the early days of the pandemic, amidst all the uncertainty, one thing was for sure: N95 masks - the personal protective respiratory devices that filter out viruses, bacteria, and wildfire smoke - were in short supply.
Scientists from Berkeley Lab and UC Berkeley have designed a rechargeable N95 mask with a custom fit In the early days of the pandemic, amidst all the uncertainty, one thing was for sure: N95 masks - the personal protective respiratory devices that filter out viruses, bacteria, and wildfire smoke - were in short supply.
Disposable or fabric? Here is what matters
Anyone who wants to protect themselves and others from a COVID-19 infection wears a mask these days. But what about the environmental impact of this mass product, which is used millions of times over? Are masks made of fabric beneficial for the environment or are disposable masks preferable? Empa researchers have examined these questions using life cycle assessments (LCAs) and identified factors for sustainable design.
Anyone who wants to protect themselves and others from a COVID-19 infection wears a mask these days. But what about the environmental impact of this mass product, which is used millions of times over? Are masks made of fabric beneficial for the environment or are disposable masks preferable? Empa researchers have examined these questions using life cycle assessments (LCAs) and identified factors for sustainable design.
Correctly Delivered and Integrated: How Proteins Find Their Place in the Cell
Heidelberg Researchers determine the three-dimensional architecture of a molecular machine that inserts essential proteins into biomembranes Over a quarter of all proteins in a cell are found in the membrane, where they perform vital functions. To fulfil these roles, membrane proteins must be reliably transported from their site of production in the cell to their destination and correctly inserted into the target membrane.
Heidelberg Researchers determine the three-dimensional architecture of a molecular machine that inserts essential proteins into biomembranes Over a quarter of all proteins in a cell are found in the membrane, where they perform vital functions. To fulfil these roles, membrane proteins must be reliably transported from their site of production in the cell to their destination and correctly inserted into the target membrane.
Magnetic vortices come full circle
The first experimental observation of three-dimensional magnetic 'vortex rings' provides fundamental insight into intricate nanoscale structures inside bulk magnets and offers a fresh perspective for magnetic devices. One of the main puzzles was why these structures are so unexpectedly stable - like smoke rings, they are only supposed to exist as moving objects Claire Donnelly Magnets often harbour hidden beauty.
The first experimental observation of three-dimensional magnetic 'vortex rings' provides fundamental insight into intricate nanoscale structures inside bulk magnets and offers a fresh perspective for magnetic devices. One of the main puzzles was why these structures are so unexpectedly stable - like smoke rings, they are only supposed to exist as moving objects Claire Donnelly Magnets often harbour hidden beauty.
News in Brief
Computer Science - Jan 22
Research at the forefront of next generation 3D printing and digital drawing
Research at the forefront of next generation 3D printing and digital drawing
Social Sciences - Jan 22
Social media bans, restrictions have mixed impact on potential misinformation following Capitol riot
Social media bans, restrictions have mixed impact on potential misinformation following Capitol riot
Life Sciences - Jan 21
Genomics: sequencing of the giant genome of the Australian lungfish shed a new light on the land conquest by vertebrates
Genomics: sequencing of the giant genome of the Australian lungfish shed a new light on the land conquest by vertebrates