One-Molecule Carbon Layer Dictates Charging of Identical Particles
Scientists used acoustic levitation to study charge transfer between identical silica grains and found that a microscopic adventitious carbon layer on surfaces governs the charging behavior. Removing this carbon eliminates charging; allowing the layer to reform restores and even flips the charge. This resolves the symmetry problem for identical materials and has implications for natural phenomena like dust storms and volcanic lightning, as well as for theories of planetary formation and the origin of life. The findings were published in Nature.