Researchers used X-ray microscopy to discover a ferroelectric material that tailors its response to controlled ultrafast external stimuli, such as light pulses. The material might be applicable to energy-efficient microelectronics.
Researchers used X-ray microscopy to discover a ferroelectric material that tailors its response to controlled ultrafast external stimuli, such as light pulses. The material might be applicable to energy-efficient microelectronics.
Researchers have unveiled a pioneering method for the efficient combustion of biofuels, using a revolutionary Swirl Burst (SB) injector to burn glycerol/methanol blends with near-zero emissions. This new technology enables ultra-clean combustion for fuels that are typically difficult to burn due to their high viscosity.
Researchers developed an approach to treating prostate cancer, successfully eliminating cancerous cells in 73% of patients in the study.
Researchers develop an AI-driven video analyzer capable of detecting human actions in video footage with precision and intelligence.
Atmospheric blocking events are persistent, high-impact weather patterns that occur when large-scale high-pressure systems become stationary and divert the jet stream and storm tracks for days to weeks, and can be associated with record-breaking flooding or heat waves, such as in Europe in 2023. Scientists used a deep learning model to infer the frequency of blocking events over the past 1,000 years and shed light on how future climate change may impact these significant phenomena.
Scientists developed a way of using artificial intelligence to check for skin cancer with the AI tool, which was trained on data from 53,601 skin lesions from 25,105 patients, outperforming existing methods in a new study.
With viral outbreaks spreading more quickly, faster responses and quicker development of new vaccines has become crucial. However, production of the mRNA used in vaccines is hindered by its production, which involves both chemical synthesis and a slower enzyme-mediated process. A team of researchers has successfully developed a cutting-edge technology for the production of fully chemically synthesized mRNA with high purity that cuts out the need for enzymes. Using this innovative technique, mRNA can be made faster and purer, making it possible to respond more swiftly to virus outbreaks and emerging diseases at an earlier stage.
In a new study, humans displayed sympathy towards and protected AI bots who were excluded from playtime.
In a new study, humans displayed sympathy towards and protected AI bots who were excluded from playtime.
Researchers have developed a novel training protocol for brain-computer interfaces in a study with rhesus monkeys. The method enables precise control of prosthetic hands using signals from the brain alone. Researchers were able to show that the neural signals that control the different hand postures in the brain are primarily important for this control, and not, as previously assumed, signals that control the movement's velocity. The results are essential for improving the fine control of neural hand prostheses, which could give paralyzed patients back some or all of their mobility (Neuron).
Researchers have developed a novel training protocol for brain-computer interfaces in a study with rhesus monkeys. The method enables precise control of prosthetic hands using signals from the brain alone. Researchers were able to show that the neural signals that control the different hand postures in the brain are primarily important for this control, and not, as previously assumed, signals that control the movement's velocity. The results are essential for improving the fine control of neural hand prostheses, which could give paralyzed patients back some or all of their mobility (Neuron).
Researchers introduce an innovative approach to image luminescence lifetimes. This simple approach uses readily-available cost-effective equipment, paving the way for advanced studies of chemical dynamics in environmental and biological systems. For example, it allows to record oxygen dynamics with much higher temporal and spatial precision.
Novel chemical compounds from a fungus could provide new perspectives for treating colorectal cancer, one of the most common and deadliest cancers worldwide. Researchers have reported on the isolation and characterization of a previously unknown class of metabolites (terpene-nonadride heterodimers). One of these compounds effectively kills colorectal cancer cells by attacking the enzyme DCTPP1, which thus may serve as a potential biomarker for colorectal cancer and a therapeutic target.
Scientists have discovered toxic 'Forever Chemicals' present in samples of drinking water from around the world.
Scientists found that cellulose diacetate foam (CDA) is the fastest degrading bioplastic in an ocean environment. This new foam material is demonstrated to be a viable replacement for Styrofoam products and single-use plastics, like food packaging trays, as it achieves all the benefits of plastic but doesn't contribute to plastic pollution. This biodegradable bioplastic foam was evaluated in a flow-through seawater tank. After 36 weeks, the CDA foam lost 65-70% of its mass, and the degradation rate of the CDA foam was 15 times faster than solid CDA.
In a pilot study, researchers have used artificial intelligence to detect antibiotic resistance in bacteria. This is an important first step toward integrating GPT-4 into clinical diagnostics.
A new study opens the door to cutting-edge solutions that could contribute to the realization of a system capable of processing quantum information in a simple yet powerful way. The work presents a method for manipulating the photonic states of light in a never-before-seen way, offering greater control over the evolution of photon propagation. This control makes it possible to improve the detection and number of photon coincidences, as well as the efficiency of the system.
A new study opens the door to cutting-edge solutions that could contribute to the realization of a system capable of processing quantum information in a simple yet powerful way. The work presents a method for manipulating the photonic states of light in a never-before-seen way, offering greater control over the evolution of photon propagation. This control makes it possible to improve the detection and number of photon coincidences, as well as the efficiency of the system.
By combining visible light and electrochemistry, researchers have enhanced the conversion of carbon dioxide into valuable products and stumbled upon a surprising discovery. The team found that visible light significantly improved an important chemical attribute called selectivity, opening new avenues not only for CO2 conversion but also for many other chemical reactions used in catalysis research and chemical manufacturing.
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