The NexGen 7T MRI scanner marks a breakthrough in brain imaging, providing unprecedented resolution that could transform neuroscience research and the diagnosis of brain disorders.…
View More Brain Imaging Redefined: NexGen 7T MRI Achieves 10x Better ResolutionCategory: Technologies
From Microbes to Artificial Life: Harnessing Bacterial Motors for Nanomachines
A collaborative research effort spearheaded by Nagoya University has uncovered crucial details about the FliG molecule in bacteria’s flagellar motors, offering insights for creating efficient,…
View More From Microbes to Artificial Life: Harnessing Bacterial Motors for NanomachinesInnovative Method to Efficiently Harvest Low-Grade Heat for Energy
Researchers from UNIST and Nanyang Technological University have developed a Thermally Regenerative Electrochemical Cycle (TREC) system, offering a novel approach to convert low-grade heat into…
View More Innovative Method to Efficiently Harvest Low-Grade Heat for EnergyBeyond Entertainment: Serious Play at MIT’s Game Lab
The MIT Game Lab combines research and education to critically explore the gaming industry and its societal impact. It encourages students to think beyond games…
View More Beyond Entertainment: Serious Play at MIT’s Game LabHuGE AI Breakthrough: Using Crowdsourced Feedback in Robot Training
A novel reinforcement learning method, HuGE, developed by MIT, Harvard, and the University of Washington researchers, uses crowdsourced feedback to efficiently teach AI agents complex…
View More HuGE AI Breakthrough: Using Crowdsourced Feedback in Robot TrainingNew Discovery Could Make Organic Solar Cells Significantly More Efficient
A research team at the Technical University of Munich has made significant progress in organic solar cell technology by incorporating organic dyes. These dyes facilitate…
View More New Discovery Could Make Organic Solar Cells Significantly More EfficientSilk Meets Silicon: The Dawn of Biological Hybrid Transistors
A team at Tufts University’s Silklab has developed transistors using biological silk as the insulating material, allowing them to interact with the environment like living…
View More Silk Meets Silicon: The Dawn of Biological Hybrid TransistorsUnlocking Nature’s Fastest Timescales: Ultrafast Lasers Shrunk to Fingertip Size
A breakthrough in laser technology has been achieved by miniaturizing ultrafast mode-lock lasers onto nanophotonic chips, using thin-film lithium niobate. This advancement paves the way…
View More Unlocking Nature’s Fastest Timescales: Ultrafast Lasers Shrunk to Fingertip SizeFrom Pixels to Paradigms: MIT’s Synthetic Leap in AI Training
MIT’s StableRep system uses synthetic images from text-to-image models for machine learning, surpassing traditional real-image methods. It offers a deeper understanding of concepts and cost-effective…
View More From Pixels to Paradigms: MIT’s Synthetic Leap in AI TrainingThe Future of AI: Self-Learning Machines Could Replace Current Artificial Neural Networks
Scientists at the Max Planck Institute have devised a more energy-efficient method for AI training, utilizing physical processes in neuromorphic computing. This approach, diverging from…
View More The Future of AI: Self-Learning Machines Could Replace Current Artificial Neural Networks