Study describes passive cooling system that aims to help impoverished communities, reduce cooling and heating costs, lower CO2 emissions. Passive cooling, like the shade a tree provides, has been around forever. Recently, researchers have been exploring how to turbo charge a passive cooling technique — known as radiative or sky cooling — with sun-blocking, nanomaterials that emit heat away from building rooftops. While progress has been made, this eco-friendly technology isn’t commonplace because researchers have struggled to maximize the materials’…
Periodic pattern consisting of magnons is formed at room temperature A team of researchers has succeeded in creating a micrometer-sized space-time crystal consisting of magnons at room temperature. With the help of an ultra-precise X-ray microscope, they were able to capture the recurring periodic magnetization structure in a movie. The research project “Real space observation of magnon interaction with driven space-time crystals” was published in Physical Review Letters. A German-Polish research team has succeeded in creating a micrometer-sized space-time crystal…
In a recent study, an international team of researchers including TUD botanist Prof. Stefan Wanke has investigated the origin of the mega-diversity of herbivorous insects. These account for a quarter of terrestrial diversity. The results of the study were recently published in the international journal Nature Communications. There the scientists show that the evolutionary success of insects may be linked to recurrent changes in host plants. Understanding the interaction of organisms in the evolution of species is an important topic…
Lead halide perovskites, with high refractive index and excellent optoelectronic property, have been used in both constructing high-quality optical resonators/lasers and fabricating high-efficiency light-emitting devices for advanced displays. Lenticular printing provides an illusion of depth and shows varying images upon view angles, which is considered as a promising approach towards future stereoscopic displays. To realize lenticular-printing-based display, it is required to modulate the outcoupling direction of emission light rather than that of incident light. Ideally, the lenticular-lens-like structures would be…
Researchers from the University of Ottawa have discovered that plants may be able to control the genetics of their intimate root symbionts – the organism with which they live in symbiosis – thereby providing a better understanding of their growth. In addition to having a significant impact on all terrestrial ecosystems, their discovery may lead to improved eco-friendly agricultural applications. We talked to research lead Nicolas Corradi, Associate Professor in the Department of Biology and Research Chair in Microbial Genomics…
Scientists succeeded in studying emissions of the greenhouse gas N2O under the influence of environmental impacts in an unprecedented level of detail. Scientists led by Eliza Harris and Michael Bahn from the Institute of Ecology at the University of Innsbruck have succeeded in studying emissions of the greenhouse gas N2O under the influence of environmental impacts in an unprecedented level of detail. The study, which has now been published in Science Advances, is thus also a starting point for the…
A new technique developed by Brown University researchers reveals the forces involved at the cellular level during biological tissue formation and growth processes. The technique could be useful in better understanding how these processes work, and in studying how they may respond to environmental toxins or drug therapies. As described in the journal Biomaterials, the technique makes use of cell-sized spheres made from a highly compliant polymer material, which can be placed in laboratory cultures of tissue-forming cells. As the…
KIT researchers develop printing process for inexpensive, three-dimensional thermoelectric generators Thermoelectric generators, TEGs for short, convert ambient heat into electrical power. They enable maintenance-free, environmentally friendly, and autonomous power supply of the continuously growing number of sensors and devices for the Internet of Things (IoT) and recovery of waste heat. Scientists of Karlsruhe Institute of Technology (KIT) have now developed three-dimensional component architectures based on novel, printable thermoelectric materials. This might be a milestone on the way towards use of…
Research team led by the University of Göttingen analyses complexity of forest structure Primeval forests are of great importance for biodiversity and global carbon and water cycling. The three-dimensional structure of forests plays an important role here because it influences processes of gas and energy exchange with the atmosphere, whilst also providing habitats for numerous species. An international research team led by the University of Göttingen has investigated the variety of different complex structures that can be found in the…
The first demonstration of an approach that inverts the standard paradigm of scanning probe microscopy raises the prospect of force sensing at the fundamental limit. The development of scanning probe microscopes in the early 1980s brought a breakthrough in imaging, throwing open a window into the world at the nanoscale. The key idea is to scan an extremely sharp tip over a substrate and to record at each location the strength of the interaction between tip and surface. In scanning…
Distinct ‘relaxation’ identified in foams Researchers from Tokyo Metropolitan University studied the dynamics of foams. When a drop of water was added to a foam raft, the bubbles rearranged themselves to reach a new stable state. The team found that bubble movement was qualitatively different depending on the range of bubble sizes present. Along with analogies with soft-jammed materials, these findings may inspire the design of new foam materials for industry. Foams are everywhere. Whether it’s soaps and detergents, meringues,…
Textiles can be coated with the biopolymer chitosan and thus made water-repellent by binding hydrophobic molecules. The good thing is that this can also replace toxic and petroleum-based substances that are currently used for textile finishing. In the last few years Fraunhofer IGB and partners in the HydroFichi project have researched how this can be done: A technology has been developed to provide fibers with the desired properties using biotechnological processes and chitosan. The manufacture of textiles is, even nowadays,…
An international research team has developed a unique platform to program a layered crystal, producing imaging capabilities beyond common limits on demand. The discovery by the team from Columbia University, the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) in Hamburg, the University of California-San Diego, the University of Washington, and the Flatiron Institute is an important step toward the control of nanolight – light that can access the smallest length scales imaginable. The work, now published…
The new therapeutic approach is based on shutting down the viral hepatitis B genome located in the nucleus of infected liver cells. Upon infection of the liver cell, the viral genome is transformed inside the nucleus into a closed circular DNA molecule. This deoxyribonucleic acid is a stable molecule known as covalently closed circular DNA (cccDNA) and serves as the template for the production of new viruses. The cccDNA represents the central reservoir of the hepatitis B viruses and enables…
Today’s digital world generates vast amounts of data every second. Hence, there is a need for memory chips that can store more data in less space, as well as the ability to read and write that data faster while using less energy. Researchers from the National University of Singapore (NUS), working with collaborators from the University of Oxford, Diamond Light Source (the United Kingdom’s national synchrotron science facility) and University of Wisconsin Madison, have now developed an ultra-thin material with…
Litter that floats and pollutes the ocean Floating sea macro-litter is a threat to the conservation of marine ecosystems worldwide. The largest density of floating litter is in the great ocean gyres -systems of circular currents that spin and catch litter- but the polluting waste is abundant in coastal waters and semi closed seas such as the Mediterranean. MARLIT, an open access web app based on an algorithm designed with deep learning techniques, will enable the detection and quantification of…
Feedback
