(PhysOrg.com) -- On this day in 1989, IBM Fellow Don Eigler became the first person in history to move and control an individual atom. Shortly thereafter, on November 11 of that year, Eigler and his team used a custom-built microscope to spell out the letters IBM with 35 xenon atoms. This unprecedented ability to manipulate individual atoms signaled a quantum leap forward in in nanoscience experimentation and heralded in the age of nanotechnology.
Eigler built his scanning tunneling microscope (STM) in order to visualize and experiment with individual molecules and atoms. As he experimented, he discovered that it was possible to slide individual atoms across a surface using the tip of his STM. To demonstrate both the atomic precision and reproducibility he achieved, he wrote the letters “IBM” with 35 xenon atoms, each positioned with atomic-scale precision.
“Don Eigler’s accomplishment remains, to this day, one of the most important breakthroughs in nanoscience and technology,” said T.C, Chen, IBM Fellow and vice president, Science & Technology, IBM Research. “At the time, the implications of this achievement were so far-reaching they almost seemed like science fiction. But now, twenty years later, it’s clear that this was a defining moment that has spawned the kind of research that will eventually bring us beyond CMOS and Moore’s Law, to advance computing to handle the massive volumes of data in the world while using less energy resources. ”
Understanding the properties, movement and interaction of various materials at the nanoscale is essential for one day building smaller, faster and more energy-efficient processors and memory devices. This understanding could also eventually enable a whole new level of personalized health care and targeted treatments and therapies. Already, the ability to understand and manipulate atoms is leading to new kinds of fabrics, products and more. Ever wonder what makes a raincoat water resistant, or how sunscreen stays put even after swimming? More often than not, it’s nanotechnology at work.
Because of Eigler’s seminal work, scientists continue making breakthroughs that continue driving the field of nanotechnology, the exploration of building structures and devices out of ultra-tiny components as small as a few atoms or molecules. Such devices might be used as future computer chips, storage devices, biosensors, and things nobody has even imagined.
Provided by IBM
Explore further: Using a single molecule to create a new magnetic field sensor