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Nanotechnology is a branch of engineering and science that involves working with matter on an atomic, molecular, and supramolecular scale. Nanotechnology encompasses the understanding of how particles interact, the manipulation of materials on a very small scale, and the potential to create extremely small devices. Nanotechnology is being used in a range of applications from medicine to manufacturing, and its potential uses are still being explored and developed. Nanotechnology has the potential to revolutionize many aspects of life, from medical treatments to energy production and storage. Its applications range from the development of new materials to the creation of tiny medical devices and sensors. Its potential uses are vast and exciting, and researchers are constantly pushing the boundaries of what is possible with this technology. The news surrounding nanotechnology is constantly evolving. From breakthroughs and discoveries to new applications and products, nanotechnology is a field that is constantly developing. There are many websites and publications that cover nanotechnology news, providing readers with the latest information on the field. In addition to news websites, there are a number of YouTube channels, podcasts, and even television shows dedicated to nanotechnology. These provide viewers with an in-depth look at the field, featuring interviews with experts and demonstrations of
What do alcohol detoxification, iron fortification and food amyloid fibrils have in common? Our last work, just published in Nature Nanotechnology, brings all these elements -only apparently uncorrelated- together in an original, efficient and unexpected way. Here is how….
Traditional treatments have aimed at inhibiting excessively activated metabolic pathways. This research has spearheaded a nanotechnology-centred therapy that reactivates tumour metabolism harnessing the power of nutrients as natural stimulants, for tumour treatment.
Over the past two centuries, we have seen echoes of the same pattern first established in the late 18th century: a wave of new ideas is resisted by the dominant powers, as tensions build below the surface and eventually explode. Sometimes order holds and sometimes it gives way to a period of chaos and destruction before, eventually, finding some sort of homeostasis. These are the “Noah effects” and “Joseph effects” that Mandelbrot described. History during this time has largely been defined by inflection points. 1776 brought both the Declaration of Independence, The Wealth of Nations and the steam engine. With 1919 came a peace treaty establishing a new world order as well as a crippling epidemic. Within a single momentous month in 1989, the Berlin Wall fell, and the World Wide Web was born. Waves of revolution in 1848 and 1968 marked important shifts that helped define what came after. We are now in the later stages of this cycle. Clearly, 2020 marked a critical junture, where significant disruptions challenged the prevailing order, but it’s not clear what comes next. Authoritarianism challenges democracy, while demands for new rights from the left are met with reactionary forces on the right. As the Boomer generation recedes, Millennials are emerging. Major shifts in technology, demography, resources and migration add more stress to the system. Some eras call for a vision, while in others certain forces are set in motion and our task is to merely survive them, averting the worst of possible calamities, overcoming the deluge so that we can make it to the other side. It seems that what we are experiencing today is the latter. There is no doubt that the future holds great promise. Technologies like artificial intelligence and quantum computing will power new sciences like synthetic biology and nanotechnology, which will, in turn, revolutionize healthcare, energy and manufacturing. We can, as trite as it sounds, heal the planet. But first we need to heal ourselves.
In the rapidly evolving field of nanotechnology, researchers worldwide are racing to develop more effective sensors, especially for detecting hazardous gases at room temperature.