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Materials Science - Chemistry - 16.06.2022
Graphene dust not harmful
Graphene dust not harmful
Graphene-based particles released from polymer composites after abrasion induce negligible health effects. Under the leadership of Empa, an international research team of the Graphene Flagship project conducted a study on the health risks of graphene-containing nanoparticles and recently published the results in Journal of Hazardous Materials.

Agronomy / Food Science - Materials Science - 02.06.2022
Avatar against food waste
Avatar against food waste
Around one third of all food worldwide ends up in the trash bin instead of on our plate. With the help of digital twins, researchers at Empa and Stellenbosch University are now aiming to reduce food waste, for example in the case of citrus fruits, along the production and supply chains. The hygrothermal measurement data needed to improve the shelf life of oranges and the like would actually be available.

Materials Science - Innovation - 23.05.2022
Objects can now be 3D-printed in opaque resin
Objects can now be 3D-printed in opaque resin
A team of EPFL engineers has developed a 3D-printing method that uses light to make objects out of opaque resin in a matter of seconds. Their breakthrough could have promising applications in the biomedical industry, such as to make artificial arteries. Back in 2017, engineers at EPFL's Laboratory of Applied Photonic Devices (LAPD), within the School of Engineering, designed a 3D printer capable of fabricating objects almost instantaneously.

Materials Science - Physics - 12.05.2022
Black holes as noise traps
Black holes as noise traps
Anyone who lives in an old building with wooden floors knows the problem: Even if the neighbors from above glide across the floor with graceful elegance, it sounds as if you were living under a bowling alley. Impact sound is a challenge even for the most modern wooden buildings. Scientists at Empa are now tinkering with a solution.

Physics - Materials Science - 05.05.2022
Glowing glass droplets on the ISS
Glowing glass droplets on the ISS
Together with researchers from Ulm and Neuchâtel, Empa will soon be studying material samples on the ISS. The material in question are super-hard and corrosion-resistant alloys of palladium, nickel, copper and phosphorus - also known as "metallic glasses". A high-tech company from La Chaux-de-Fonds, which produces materials for the watch industry, is also involved.

Materials Science - 03.05.2022
A solution to perovskite solar cell scalability problems
A solution to perovskite solar cell scalability problems
Scientists at EPFL have found a way to overcome power loss and the manufacturing complexity of scaling up perovskite solar cells. Perovskites are hybrid materials made from metal halides and organic compounds. They have attracted a lot of interest in the field of solar energy because of their light-harvesting capacities combined with a low cost of manufacturing, making them prime candidates for overtake the market from their silicon counterparts.

Environment - Materials Science - 29.04.2022
Improving the efficiency of tandem solar cells
Improving the efficiency of tandem solar cells
Scientists in Neuchâtel have developed a tandem solar cell that can deliver a certified efficiency of 29. This achievement was made possible by combining a perovskite solar cell with a textured silicon solar cell. Solar cells made of silicon are used widely but have limited power-conversion yields. These yields will likely top out at around 27% in the foreseeable future, owing to fundamental thermodynamic limitations.

Materials Science - 08.04.2022
Maintaining the structure of gold and silver in alloys
Maintaining the structure of gold and silver in alloys
EPFL engineers have developed a low-temperature annealing method that maintains the structure of gold and silver when the two metals are combined in an alloy. Their discovery will prove useful in the manufacture of contact lenses, holographic optical elements and other optical components, since the new alloys reflect the full spectral range.

Health - Materials Science - 29.03.2022
In the heat of the wound
In the heat of the wound
A bandage that releases medication as soon as an infection starts in a wound could treat injuries more efficiently. researchers are currently working on polymer fibers that soften as soon as the environment heats up due to an infection, thereby releasing antimicrobial drugs. It is not possible to l from the outside whether a wound will heal without problems under the dressing or whether bacteria will penetrate the injured tissue and ignite an inflammation.

Physics - Materials Science - 14.03.2022
Novel X-ray lens facilitates glimpse into the nanoworld
Novel X-ray lens facilitates glimpse into the nanoworld
PSI scientists have developed a ground-breaking achromatic lens for X-rays. This allows the X-ray beams to be accurately focused on a single point even if they have different wavelengths. The new lens will make it much easier to study nanostructures using X-rays, according to a paper just published by the researchers in the scientific.

Materials Science - Electroengineering - 14.03.2022
Scientists create new lead-free piezoelectric materials
Scientists create new lead-free piezoelectric materials
Researchers have discovered that gadolinium-doped cerium oxide, a compound they created in the lab, could be a promising alternative to certain piezoelectric materials: it has the same proprieties yet may be 100 times more effective. It's also lead-free, unlike the best piezoelectric materials, which means that it could be employed in bio-compatible medical applications.

Materials Science - 22.02.2022
Silence on the tracks
Silence on the tracks
Noise barriers or improved wheel systems and brakes that are less noisy are not the only ways to reduce railway noise for close-by residents. An inconspicuous component under the tracks is a source of hope for a research team including scientists. Railway noise is unhealthy. Hundreds of millions of Swiss francs have already been invested in noise barriers, quieter braking systems and other measures with the goal to protect at least 80 percent of the Swiss population from emissions by the year 2025 - but because railway traffic will continue to increase, a lot remains to be done.

Environment - Materials Science - 11.02.2022
Solar and wind power are key to decarbonising Switzerland
Solar and wind power are key to decarbonising Switzerland
A team from the UNIGE and Empa demonstrate that a mix of photovoltaic and wind power is optimal for reducing the carbon footprint of Swiss electricity consumption . How can we reduce the carbon footprint of electricity consumption in Switzerland? The country relies on electricity imports from fossil fuel power plants, which are major emitters of greenhouse gases.

Materials Science - Chemistry - 09.02.2022
A new electrolyte for greener and safer batteries
A new electrolyte for greener and safer batteries
A team from the University of Geneva has developed a new material that improves the performance of solid-state sodium batteries, a less dangerous and more durable alternative to lithium. The future of battery technologies lies in sodium. More sustainable than lithium - which currently powers most of our devices and vehicles - sodium is also abundant on the earth's surface.

Materials Science - 03.02.2022
Novel printing process switches materials from black to transparent
Novel printing process switches materials from black to transparent
Researchers have developed a new type of printing process that involves removing material rather than depositing it.

Physics - Materials Science - 02.02.2022
Cooling matter from a distance
Cooling matter from a distance
Researchers from the University of Basel have succeeded in forming a control loop consisting of two quantum systems separated by a distance of one meter. Within this loop, one quantum system - a vibrating membrane - is cooled by the other - a cloud of atoms, and the two systems are coupled to one another by laser light.

Physics - Materials Science - 21.01.2022
Quantum dots boost perovskite solar cell efficiency and scalability
Quantum dots boost perovskite solar cell efficiency and scalability
Scientists at EPFL have boosted the efficiency and scalability of perovskite solar cells by replacing their electron-transport layers with a thin layer of quantum dots. Perovskites are hybrid compounds made from metal halides and organic constituents. They show great potential in a range of applications, e.g. LED lights, lasers, and photodetectors, but their major contribution is in solar cells, where they are poised to overtake the market from their silicon counterparts.