Water just revealed a new secret: scientists have discovered Ice XXI, a never-before-seen crystalline phase that forms at room temperature under enormous pressure. The breakthrough sheds light on the hidden behavior of water deep inside icy planets and moons.
Inside the dynamic diamond anvil cell used by the Kriss research team to generate the supercompressed state (A pair of diamond anvils can be seen)
(Source: Korea Research Institute of Standards and Science (Kriss))
The Korea Research Institute of Standards and Science (Kriss) has successfully observed, for the first time, the multiple freezing-melting process of water under ultrahigh pressure exceeding 2 gigapascals (2 GPa) at room temperature on a microsecond (μs, one-millionth of a second) timescale.
This breakthrough led to the world’s first discovery of a previously unknown crystallization pathway of water and a new 21st ice phase, named Ice XXI.
While ice generally forms when water cools below 0 °C, it can also form at room temperature or even at elevated temperatures above the boiling point. This is because crystallization — the process in which a liquid transforms into a solid — is influenced not only by temperature but also by pressure. At room temperature, pressurized water exceeding 0.96 GPa undergoes a phase transition into ice crystal, that is, Ice VI.
When water freezes, the hydrogen-bonded network among water molecules becomes intricately distorted and rearranged depending on temperature and pressure, resulting in a variety of ice phases during the crystallization process.
A deeper understanding of these complex phase transitions and structural formation mechanisms between water and ice — and the ability to control them under extreme pressure and temperature conditions — could lead to the creation of new materials never before found on Earth.
Over the past century, researchers around the world have identified 20 distinct crystalline ice phases by varying temperature and pressure conditions. These phases have been discovered across an extremely wide range — over 2,000 K in temperature and more than 100 GPa in pressure. Among them, the region between ambient pressure (0 GPa) and 2 GPa is particularly important, as it represents the most complex zone of water’s phase transitions, where more than ten ice phases are densely clustered.
The Space Metrology Group at Kriss successfully generated a supercompressed liquid state — where water remains liquid state under high pressure exceeding 2 GPa at room temperature, more than twice the known crystallization pressure — using an in-house developed dynamic diamond anvil cell (dDAC*).
Team Captures Supercompressed Water Transforming in Real Time
Unlike conventional diamond anvil cells (DACs), which increase pressure by tightening assembly bolts and often cause easy nucleation due to pressure gradients and mechanical perturbations, the dDAC developed by Kriss minimizes mechanical shock during compression and shortens the compression time from tens of seconds to just 10 milliseconds (ms). This innovation enabled water to be highly compressed into the pressure range of the Ice VI phase.
International collaboration research team led by the Kriss scientists captured the crystallization process of supercompressed water using the combination of dDAC and European XFEL (-the world’s largest X-ray free-electron laser facility) with microsecond time resolution. Through these observations, the team discovered very complicated multiple crystallization pathways that had previously been unknown at room temperature, and revealed that these pathways occurred via a new ice phase, named Ice XXI that is 21st crystalline ice phase for the first time in the world.
The Kriss research team identified the detailed structure of ice XXI as well as the multiple crystallization pathways. Surprisingly, the Ice XXI formed at room temperature possesses a remarkably large and complex unit cell — the smallest repeating unit of a crystal lattice — compared to previously known ice phases. Its crystal structure exhibits a flattened rectangular shape, in which the two base edges are equal in length.
This breakthrough was achieved through a large-scale international collaboration involving 33 scientists from South Korea, Germany, Japan, USA, England, together with researchers at the European XFEL and Desy. The project was conceptualized and led by Kriss under the direction of Dr. Lee Geun Woo who served as a principal investigator (PI).
Original Article: Multiple freezing-melting pathways of high-density ice through ice XXI phase at room temperature; Nature Materials; DOI:10.1038/s41563-025-02364-x
Date: 08.12.2025
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