Programmable Bio Machines: Future of Sustainable Tech
Discover the revolutionary world of Biological Programmable Machines - living robots made from biocompatible materials. Watch as researchers from the University of Vermont and Tufts University create the first computer-designed organism using frog cells. With applications ranging from cleaning oceans to delivering drugs, these biodegradable biobots have the potential to revolutionize healthcare. Learn about the potential dangers and the latest advancements in Silicon Hybrid Chips, made using live neurons, capable of performing repeatable human tasks. Explore the future of technology creation with this informative video.
In recent years, there has been a growing interest in the development of programmable biological machines, which utilize biocompatible materials instead of traditional, non-biological materials. This shift towards sustainable technology not only reduces the environmental impact of production, but also opens up a world of new possibilities in terms of applications.
The University of Vermont and Tufts University have taken the lead in this field by creating the world's first computer-designed organism, known as a biobot, (the one below specifically is named ‘xenobot’). These living robots were designed by machine learning algorithms and built from a combination of biological tissues, including frog cells. The biodegradable composition of these biobots makes them a promising solution for cleaning polluted oceans, scavenging for toxins and radioactive materials, and even delivering drugs to humans.
Programmable biological machines are an emerging technology with massive potential applications.
Another type of programmable biological machine utilizes silicon hybrid chips that have been created using live neurons sourced from mice embryos. These chips are trained, rather than programmed, using stimulus-response cycles, which allow them to perform a range of tasks, such as manufacturing, driving, building, and cleaning.
While the potential benefits of programmable biological machines are clear, there are also concerns about their impact on life functions, the potential for hijacking or hostile use, and the risk of these technologies going rogue. However, as long as proper regulations are in place and ethical considerations are taken into account, these technologies have the potential to revolutionize the way we approach sustainable technology.
In conclusion, programmable biological machines represent a promising step towards a more sustainable future, offering new solutions for cleaning our environment, improving healthcare, and even revolutionizing the way we live and work. As research in this field continues to advance, it is exciting to consider the endless possibilities of this new and exciting technology.
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