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Long Predicted Atomic Collapse State Observed in Graphene

By Guest PostMarch 19, 2013Sciencealex zettl, andrey shytov, artificial atomic nuclei, atomic collapse behavior, atomic collapse state, berkeley lab, calcium dimers, dillon wong, electrical conductor, electronic devices, electronic resonance, electrons, energy, graphene, holy grail, michael crommie, nuclear physics, nucleus, predictions, quantum mechanical phenomenon, relativistic quantum mechanics, roland kawakami, scanning tunneling microscope, smoking gun, Space, stable circular orbits, stm, stm spectroscopy, ultra high vacuum, ultrafast transistors, william regan, yang wang

Berkeley Lab researchers recreate elusive phenomenon with artificial nuclei

The first experimental observation of a quantum mechanical phenomenon that was predicted nearly 70 years ago holds important implications for the future of graphene-based electronic devices. Working with microscopic artificial atomic nuclei fabricated on graphene, a collaboration of researchers led by scientists with the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California (UC) Berkeley have imaged the “atomic collapse” states theorized to occur around super-large atomic nuclei.

“Atomic collapse is one of the holy grails of graphene research, as well as a holy grail of atomic and nuclear physics,” says Michael Crommie, a physicist who holds joint appointments with Berkeley Lab’s Materials Sciences Division and UC Berkeley’s Physics Department. “While this work represents a very nice confirmation of basic relativistic quantum mechanics predictions made many decades ago, it is also highly relevant for future nanoscale devices where electrical charge is concentrated into very small areas.” (more…)

First Atomic-Scale Real-Time Movies of Platinum Nanocrystal Growth in Liquids

By Guest PostApril 23, 2012Sciencealex zettl, alivisatos zettl collaboration, anisotropic particle, atomic scale, berkeley lab, crystallographic direction, daniel hellebusch, DNA, electron beam, electron microscope, gold tem mesh, grapheme, graphene liquid cells, growth, growth trajectory, jeong yong lee, jong min yuk, jungwon park, kwanpyo kim, liquid, lynn yarris, membrane, metal, michael crommie, movie, nanocrystal, nanometer scale, nanoparticle growth, ncem, paul alivisatos, peter ercius, platinum nanocrystal, protein, real-time, solution, subnanometer resolution, tem grid, transmission electron microscope, university of california

Berkeley Scientists Create Graphene Liquid Cells for Electron Microscopy Studies of Nanocrystal Formation

They won’t be coming soon to a multiplex near you, but movies showing the growth of platinum nanocrystals at the atomic-scale in real-time have blockbuster potential. A team of scientists with the Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California (UC) Berkeley has developed a technique for encapsulating liquids of nanocrystals between layers of graphene so that chemical reactions in the liquids can be imaged with an electron microscope. With this technique, movies can be made that provide unprecedented direct observations of physical, chemical and biological phenomena that take place in liquids on the nanometer scale. (more…)

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Long Predicted Atomic Collapse State Observed in Graphene

First Atomic-Scale Real-Time Movies of Platinum Nanocrystal Growth in Liquids