A first-order liquid–liquid phase transition in phosphorus

Abstract

First-order structural phase transitions are common in crystalline solids, whereas first-order liquid–liquid phase transitions (that is, transitions between two distinct liquid forms with different density and entropy) are exceedingly rare in pure substances^1,2,3,4. But recent theoretical and experimental studies have shown evidence for such a transition in several materials, including supercooled water^5,6,7,8 and liquid carbon^9,10. Here we report an in situ X-ray diffraction observation of a liquid–liquid transition in phosphorus, involving an abrupt, pressure-induced structural change between two distinct liquid forms. In addition to a known form of liquid phosphorus—a molecular liquid comprising tetrahedral P₄ molecules—we have found a polymeric form at pressures above 1 GPa. Changing the pressure results in a reversible transformation from the low-pressure molecular form into the high-pressure polymeric form. The transformation is sharp and rapid, occurring within a few minutes over a pressure range of less than 0.02 GPa. During the transformation, the two forms of liquid coexist. These features are strongly suggestive of a first-order liquid–liquid phase transition.