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Liquid metals, surface patterns, and the Romance of the Three Kingdoms


Surface pattern formation during solidification of a Ag-Ga alloy (optical microscope)

“The long divided, must unite; long united, must divide. Thus it has ever been.”


The opening lines of the great Chinese historical novel Romance of the Three Kingdoms condense its complex and spectacular stories into a coherent pattern, that is, power blocs divide and unite cyclically in turbulent battle years.


A good philosophy or theorem has general implications. Now, published in the journal Nature Synthesis, scientists from Australia, New Zealand, and the US reported a new type of solidification patterns that resembles the plots in the Chinese classic, but this time appearing on the surface of solidifying liquid metals.


The team dissolved a small amount of metals such as silver (Ag) in low-melting-point solvent metals such as gallium (Ga), and investigated how the metallic components interact and separate to form patterns when the metallic liquid mixtures (alloys) solidify.


The researchers found that a single silver–gallium system can produce distinct patterns such as particles or bundle-like structures of a Ag2Ga compound.

Surface pattern formation during solidification of a Ag-Ga alloy (optical microscope)

The individual Ag2Ga structures that build the patterns are small, with micrometre or nanometre thicknesses, tens or hundreds of times less than a human hair.


Most surprisingly, the researchers observed that the patterns divide and unite in a repeated manner. “The first time I saw such cyclic divergent-convergent patterns, it immediately reminded me of the famous opening lines of the Romance of the Three Kingdoms,” said Dr Jianbo Tang from University of New South Wales (UNSW, Australia), who is the first author of the study.


Pattern formation is a fundamental yet ubiquitous phenomenon which has interested and inspired scientists for a long time. Some pattern types are more common than others.

Top: Divergent surface patterning spreading out from a ‘seed’ (left to right), meeting convergent patterning (right to left). Bottom: oscillatory bifurcation patterns on surface of solidified Ag-Ga alloy (scanning electron microscopy image)

Among all the diverse patterning behaviours, divergent pattern formation, or bifurcation, is frequently seen in nature because this particular arrangement generally favours energy conversion or distribution. “I.e. it’s the ‘easiest’ path,” explains Dr Tang. River networks, tree branches, lightning pathways, and vascular systems are all examples of bifurcation.


In comparison, convergent pattern growth, or inverse bifurcation, is encountered less frequently as it is contrary to the energetically favourable bifurcation.


The strange cyclic divergent and convergent growth, called oscillatory bifurcation, is rare and has not been observed in solidification structures prior to the new published work.


Despite this, the researchers observed oscillatory bifurcation patterns on the surface of several liquid alloys after solidification, which suggests that this counter-intuitive behaviour is quite general for solidification patterns forming on the surface of liquid metals.

Examples of oscillatory bifurcation patterns observed in (a-c) Ag-Bi alloys and (d,e) Bi-Ga alloys. Scanning electron microscopy (a,b,d) and energy dispersive spectroscopy (c,e)


Analogous to the dramatized novel where the turbulent forces between and within a large number of power blocs drive those groups to divide and unite, the team found that it is also the instability of the liquid metal surface that underlies the emergence of the exotic oscillatory bifurcation patterns.


“Surface pattern formation of liquid metal alloys is a new but exciting topic. The surface or interfacial nature of the process enables us to better understand and control fundamental phase transition and pattern formation.” Dr. Tang added, “We will continue our work on designing crystalline surface patterns and structures using liquid metals to enable cutting-edge applications such as plasmonic sensing, high-efficiency electronics and optics, and high-precision spectroscopy.”

Reference Oscillatory bifurcation patterns initiated by seeded surface solidification of liquid metals

Jianbo Tang, Stephanie Lambie, Nastaran Meftahi, Andrew J. Christofferson, Jiong Yang, Jialuo Han, Md. Arifur Rahim, Mohannad Mayyas, Mohammad B. Ghasemian, Francois-Marie Allioux, Zhenbang Cao, Torben Daeneke, Chris F. McConville, Krista G. Steenbergen, Richard B. Kaner, Salvy P. Russo, Nicola Gaston & Kourosh Kalantar-Zadeh


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