An article published in ACS Energy Letters provides an overview of the first-ever 2T perovskite/CIS TSC with a power conversion efficiency (PCE) approaching 25%.
Polaritons offer the best of two very different worlds. These hybrid particles combine light and molecules of organic material, making them ideal vessels for energy transfer in organic semiconductors.
In an article recently published in the journal Dyes and Pigments, researchers discussed the utility of photonic crystals (PC) to prepare carbon fiber substrates with structural hues.
According to KAUST research, a complete understanding of how electrical charges operate inside perovskites could help guide attempts to enhance the effectiveness of next-generation solar cells based on such materials.
Researchers discovered that light can trigger a form of magnetism in a normally nonmagnetic material. This magnetism centers on the behavior of electron "spin." By controlling & aligning electron spin at this level of detail & accuracy, this platform could have applications in quantum computing & simulation.
Laser Photonics Corp., a global leading industrial company in high-tech laser systems for laser cleaning, announces the upcoming release of its new product at MRO Americas in Dallas, Texas on April 26-28, 2022.
Liquid droplets and very fine particles can trap light – similar to how light can be caught between two mirrors. As a result, the intensity of the light inside them is amplified.
Materials scientists may soon be able to control material properties with light.
Displayed over roof tops and in solar farms, silicon-based solar cells are, so far, one of the most efficient systems in generating electricity from sunlight, but their fabrication can be expensive and energy demanding, aside from being heavy and bulky. The alternative solution of lower-cost thin film solar cells also brings the caveat of being mainly composed of toxic elements such as lead or cadmium, or containing scarce elements such as indium or tellurium.
As a key precursor in the formation of new particles, sulfuric acid (H2SO4) plays an important role in the formation of aerosols and clouds in the atmosphere. Gas-phase sulfuric acid molecules can easily form molecular clusters at the beginning of nucleation through hydrogen bonding and other interactions.
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