期刊论文详细信息
Spectroscopic evidence for a gold-coloured metallic water solution
Article
关键词: SOLVATED ELECTRONS;    AMMONIA;    SODIUM;    ADSORPTION;    POTASSIUM;    H2O;   
DOI  :  10.1038/s41586-021-03646-5
来源: SCIE
【 摘 要 】

Spectroscopic measurements confirm that when water is adsorbed on drops of an alkali alloy at low pressure a gold-coloured metallic layer forms as electrons rapidly move from the drop into the water. Insulating materials can in principle be made metallic by applying pressure. In the case of pure water, this is estimated(1) to require a pressure of 48 megabar, which is beyond current experimental capabilities and may only exist in the interior of large planets or stars(2-4). Indeed, recent estimates and experiments indicate that water at pressures accessible in the laboratory will at best be superionic with high protonic conductivity(5), but not metallic with conductive electrons(1). Here we show that a metallic water solution can be prepared by massive doping with electrons upon reacting water with alkali metals. Although analogous metallic solutions of liquid ammonia with high concentrations of solvated electrons have long been known and characterized(6-9), the explosive interaction between alkali metals and water(10,11) has so far only permitted the preparation of aqueous solutions with low, submetallic electron concentrations(12-14). We found that the explosive behaviour of the water-alkali metal reaction can be suppressed by adsorbing water vapour at a low pressure of about 10(-4) millibar onto liquid sodium-potassium alloy drops ejected into a vacuum chamber. This set-up leads to the formation of a transient gold-coloured layer of a metallic water solution covering the metal alloy drops. The metallic character of this layer, doped with around 5 x 10(21) electrons per cubic centimetre, is confirmed using optical reflection and synchrotron X-ray photoelectron spectroscopies.

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