New cardiology discoveries rely heavily on medical imaging. Researchers use cardiac imaging techniques to detect signs of artery disease that would not have been visible to doctors otherwise. The more tools we have to combat heart disease, the better. According to the CDC (Centers for Disease Control and Prevention), it is still the leading cause [..]

Researchers have developed a new type of high-efficiency photodetector. The concept comes from the photosynthetic complexes plants use to turn sunlight into energy. The researchers used unique quasiparticles known as polaritons. The new detector generates the particles in an organic thin film. Photodetectors are used in cameras, optical communication systems, and many other applications to [..]

Organic light-emitting transistors (OLETs) are promising components for optoelectronics, smart display technologies, and electrically pumped lasers. They combine the light-emitting function of organic light-emitting diodes (OLEDs) and the current modulation (and signal amplification) function of organic field-effect transistors (OFETs) in a single device. High-mobility emissive organic semiconductors with tunable colors, which serve as the core [..]

Although the electronic states of a material‘s surface are only 2D, they contain a wealth of interesting physics. These states, which differ from the bulk of the material, dominate many phenomena, including electrical conduction, magnetism, and catalysis. They are responsible for nontrivial surface effects observed in topological materials and systems with strong spin-orbit interaction. Surface [..]

Researchers looked at the nucleus of cells inside connective tissues that were deteriorating due to tendinosis. Disease-related disruptions in the environments in which cells exist resulted in the re-organization of the genome – the sum of an organism’s DNA sequences – inside the cell’s nucleus, changing the way cells function and rendering them unable to [..]

Scientists must study the processes inside an operating battery to understand battery failures. The observations guide the development of faster-charging and longer-lasting batteries. Current techniques to study battery materials are complicated and expensive. They are not quick enough to capture the rapid changes in electrode materials. To understand battery failures, the researchers studied micrometer-sized rod-like [..]

Researchers have made strides toward improving the performance of mixture-based quarter-wave plate laser beam splitter (PLBS) coatings. Because of their unique optical properties, plate beam splitters find uses in quantum communication, measurement, and laser systems. The quarter-wave plate laser beam splitter must have a specific spectral performance in high-power laser systems. It also requires a [..]

Fundus photography is essential in ophthalmology to screen, diagnose, and manage eye diseases. Wide-field fundus photography has demonstrated its utility in the clinical management of eye diseases such as diabetic retinopathy (DR), age-related macular degeneration (AMD), glaucoma, hypertensive retinopathy, retinal detachments, and vascular pathologies (vascular occlusions, vasculitis, etc.) with ocular metastasis. Choroidal and retinal imaging [..]

The surface temperature of a solar panel and the appearance of hotspots directly impact its efficiency. Researchers have developed a novel method for estimating the power efficiency of an on-field solar photovoltaics (PV) system based on data obtained from thermal imaging and weather instruments using an unmanned aerial vehicle (UAV). This method is designed explicitly [..]

Light-induced charged slippery surfaces (LICS), which regenerate charge when illuminated, have the potential to pave the way for next-generation interfacial materials and microfluidics. A copolymer, tiny liquid metal particles, and lubricant-trapping microstructures make up the new material. It has the potential to be used in lab-on-a-chip devices, biological diagnostics, and chemical analysis. Slippery lubricant-infused porous [..]

Researchers have developed a new ultrasensitive optical sensing instrument that could benefit science, medicine, and engineering. It is known as a Mach Zehnder-Fabry Perot (MZ-FP) hybrid fiber interferometer. It combines the benefits of the two types of interferometers currently available, making it compact and highly sensitive. Interferometers are precision measuring devices that work by creating [..]

Bioactive glass, a specific mixture of sodium oxide, calcium oxide, silicon dioxide, and phosphorus pentoxide, is now used as an orthopedic treatment to restore damaged bone and repair bone defects. Bioactive glass is a material you put into your body, and it begins to dissolve, telling cells and bone to become more active and produce [..]

MRI, electroencephalography (EEG), and magnetoencephalography (MEG) have been the most widely used techniques to study brain activity for many years. A new study introduces a novel, AI-based dynamic brain imaging technology that can map rapidly changing electrical activity in the brain at high speed, high resolution, and low cost. The breakthrough follows more than 30 [..]

Researchers used the light-guiding properties of spider silk to create a sensor that can detect and measure tiny changes in the refractive index of a biological solution, such as glucose or other sugar solutions. The new light-based sensor could be useful for measuring blood sugar and other biochemical analytes in the future. Glucose sensors are [..]

Engineers have created a switch, one of the most fundamental components of computing, using optical rather than electronic components. The advancement could help in pursuing ultrafast all-optical signal processing and computing. Optics has the potential to revolutionize computing by allowing it to do more at faster speeds and with less power. However, one of the [..]

Currently, ultrasound imaging necessitates using large, specialized equipment only available in hospitals and doctor’s offices. On the other hand, a new design could make the technology as wearable and accessible as buying Band-Aids at the pharmacy. A new ultrasound sticker, the size of a stamp, adheres to the skin and can provide continuous ultrasound imaging [..]

A new study looks at conjugating 2D perovskites with optically active transition metal dichalcogenides (TMDs). The study can improve optoelectronic device performance and extend the functionalities of the perovskites. Despite their structural differences, 2D perovskites and TMDs can form clean interfaces due to van der Waals interactions between the stacked layers. Using accurate first-principles calculations, [..]

Researchers have been experimenting with ways to reach people as VR technology improves, becomes cheaper, and more accessible – everything from treating PTSD to performing operas. Visual artists are the most recent to wonder how technology might push the boundaries of their field, looking for new ways to express themselves and share their work. However, [..]

Carbon-based materials have enormous potential for constructing a sustainable future; however, material scientists require tools to properly analyze their atomic structure, which determines their functional properties. One of the tools used for this is X-ray photoelectron spectroscopy (XPS), but the results can be challenging to interpret. Now, researchers have created the XPS Prediction Server, a [..]

Respiratory motion can influence the efficacy and safety of radiation therapy in the thorax and abdomen. Free-breathing 4D-MRI is a promising alternative to 4D-CT for motion management in MRI-guided linac treatments, providing excellent soft-tissue contrast with no ionizing radiation. High-quality MR images free of motion artifacts can distinguish lesions from normal tissue. MRI techniques, however, [..]