Researchers from the RoboFood project made a battery you can eat that will someday power an edible robot - here’s why we want them.
At some point in the not-too-distant future, a doctor might instruct you to swallow a robot you can eat to deliver some sort of therapy with incredible precision or perform some kind of test. You’ll probably do it without thinking twice, knowing that all of the robot’s components are made of food. You’ll also be able to eat the battery without worrying about any other chemical reactions or side effects involving electric-powered machines that inhabit your body briefly.
scientists developed an edible gripper made of gelatine. The structure could grip an apple and be eaten after the fact. More recently,
United States Latest News, United States Headlines
Similar News:You can also read news stories similar to this one that we have collected from other news sources.
Rewriting the Rules of Power: Korean Researchers Develop Revolutionary New Lightweight Structure for Lithium BatteriesScience, Space and Technology News 2024
Read more »
Researchers create power-generating, gel electret-based device for wearable sensorsA team of researchers from NIMS (National Institute for Materials Science), Hokkaido University and Meiji Pharmaceutical University has developed a gel electret capable of stably retaining a large electrostatic charge.
Read more »
SDSU researchers develop AI robot hoping to help those with mental health concernsResearchers at San Diego State University have received millions of dollars in funding that's helped them develop an artificial intelligence robot that they…
Read more »
Researchers: A rush on critical minerals is coming for Australia's most remote and disadvantaged communitiesThe Australian mining industry was promised billions of dollars in last week's federal budget to boost critical minerals such as lithium, copper and rare earth metals. This includes tax incentives, an innovation fund and money for Geoscience Australia to map these resources.
Read more »
Researchers reveal how acetylation regulates centromere dynamics, chromosome segregation and mitotic progressionCell division produces new cells, which underpin life proliferation and development. Mitosis is the shortest and the most dynamic phase of the cell cycle. During mitosis, chromosomes are evenly distributed between the two daughter cells, preserving the integrity of the genome.
Read more »
Researchers develop a blood test that can detect stroke quicklyChloe Nordquist is a national journalist for the E.W. Scripps Company. She has a passion for telling community stories and giving a voice to the voiceless. Chloe has had the opportunity to report across the world, as far as Milan and Berlin. Previously she worked at news stations in California’s Central Valley and Southwest Florida.
Read more »