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ScienceDaily: Matter & Energy News |
Holograms increase solar energy yield Posted: 25 May 2021 01:08 PM PDT Researchers recently developed an innovative technique to capture the unused solar energy that illuminates a solar panel. They created special holograms that can be easily inserted into the solar panel package. This method can increase the amount of solar energy converted by the solar panel over the course of a year by about five percent. |
Silver attacks bacteria, gets 'consumed' Posted: 25 May 2021 08:37 AM PDT As antibiotic-resistant bacteria become more prevalent, silver has seen steep growth in its use in things like antibacterial coatings. Still, a better understanding can provide clues on how to best apply it. Researchers have now monitored the interaction of silver nanoparticles with a nearby E. coli culture and found the silver undergoes several dramatic changes. Most notably, the E. coli cells caused substantial transformations in the size and shape of the silver particles. |
Scientific software - Quality not always good Posted: 25 May 2021 08:37 AM PDT Computational tools are indispensable in almost all scientific disciplines. Especially in cases where large amounts of research data are generated and need to be quickly processed, reliable, carefully developed software is crucial for analyzing and correctly interpreting such data. Nevertheless, scientific software can have quality quality deficiencies. To evaluate software quality in an automated way, computer scientists have designed the SoftWipe tool. |
Superflimsy graphene turned ultrastiff by optical forging Posted: 25 May 2021 08:37 AM PDT Graphene is an ultrathin material characterized by its ultrasmall bending modulus, superflimsiness. Now researchers have demonstrated how an experimental technique called optical forging can make graphene ultrastiff, increase its stiffness by several orders of magnitude. |
Quantum electronics: 'Bite' defects in bottom-up graphene nanoribbons Posted: 25 May 2021 08:36 AM PDT Scientists have identified a new type of defect as the most common source of disorder in on-surface synthesized graphene nanoribbons, a novel class of carbon-based materials that may prove extremely useful in next-generation electronic devices. The researchers identified the atomic structure of these so-called 'bite' defects and investigated their effect on quantum electronic transport. These kinds of defective zigzag-edged nanoribbons may provide suitable platforms for certain applications in spintronics. |
Technique to evaluate wind turbines may boost wind power production Posted: 25 May 2021 08:36 AM PDT With a global impetus toward utilizing more renewable energy sources, wind presents a promising, increasingly tapped resource. Despite the many technological advancements made in upgrading wind-powered systems, a systematic and reliable way to assess competing technologies has been a challenge. Researchers have used advanced data science methods and ideas from the social sciences to compare the performance of different wind turbine designs. |
Synchrotron X-ray experiment reveals a small nudge with big consequences Posted: 25 May 2021 07:16 AM PDT QUT researchers have used experimental x-ray techniques at the Australian Synchrotron to gain fundamental insights into how gypsum dehydrates under pressure and the processes that create earthquakes. |
Soft X-ray method promises nanocarrier breakthroughs for smart medicine Posted: 25 May 2021 05:43 AM PDT A new technique using chemically-sensitive 'soft' X-rays offers a simpler, non-disruptive way of gaining insight into nanocarriers. Currently researchers have to rely on attaching fluorescent dyes or heavy metals to label parts of organic nanocarrier structures for investigation, often changing them in the process. Researchers have demonstrated the capability of the new X-ray method on a smart drug delivery nanoparticle and a polysoap nanostructure intended to capture crude oil spilled in the ocean. |
Quantum sensing: Odd angles make for strong spin-spin coupling Posted: 25 May 2021 05:43 AM PDT A new study finds a unique form of tunable and ultrastrong spin-spin interactions in orthoferrites under a strong magnetic field. The discovery has implications for quantum simulation and sensing. |
Engineering matter at the atomic level Posted: 25 May 2021 05:43 AM PDT Researchers have developed a way to use a 'dry transfer technique' -- a technique that uses no solvent -- to position optical quality carbon nanotubes in a precise way. |
Delivering serendipity: Seemingly random product discovery, aided by technology Posted: 25 May 2021 05:42 AM PDT Marketers can capitalize on the power of serendipity to increase consumer satisfaction. |
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