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‘Intelligent’ oil droplet navigates chemical maze

An oil droplet floating on an aqueous solution can make its own way through a labyrinth

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Video: 鈥淚ntelligent鈥 droplet

There鈥檚 some humbling news from the chemical world for anyone who has ever found themselves lost in a garden maze. A simple droplet of organic solvent can find its way through a complicated labyrinth with nothing more to go on than a slight pH difference.

鈥榮 team at Northwestern University in Evanston, Illinois, used a common polymer to fashion a two-dimensional labyrinth some 2聽centimetres on each side. They then flooded the maze with strongly alkaline potassium hydroxide solution, before placing a hydrochloric acid-soaked chunk of gel at the maze exit.

After about 40聽seconds they placed a droplet of mineral oil containing hexyldecanoic acid at the maze entrance. The oil, which cannot mix with the potassium hydroxide solution, sits on the surface. But it remains still only for a matter of seconds 鈥 it soon begins tearing around the maze at speeds of up to 10聽millimetres per second, sniffing out the shortest path to the acid-soaked gel, and solving the maze in the process.

鈥淚n the movie files you can see the droplet makes decisions,鈥 says Grzybowski. 鈥淚t goes left along the wrong path, decides there鈥檚 something fishy with that and so it reverses. It looks almost alive.鈥

Primitive intelligence

But while Grzybowski says the droplet displays behaviour that might be called 鈥減rimitive intelligence鈥, there鈥檚 a simple chemical mechanism at work.

The droplet leaches its acid into the surrounding solution, losing hydrogen ions in a process known as deprotonation 鈥 a process that affects the surface tension of the droplet itself.

鈥淏ut to the front and rear of the droplet [the surrounding solution] has a different pH,鈥 he says, because of diffusion from the acid-soaked gel at the maze exit. Those tiny pH differences affect the amount of deprotonation that happens at the front and rear of the droplet, and this asymmetry sets up a surface tension gradient that forces the droplet into motion. 鈥淚 would say the droplet is self-propellant,鈥 he says.

Grzybowski鈥檚 team thinks that the behaviour could have implications for cancer treatments. They would like to develop micelles 鈥 aggregates of molecules such as balls of lipids 鈥 that can navigate pH gradients in the body. 鈥淎 good reason for that is cancer is more acidic than the rest of the body,鈥 Grzybowski says.

Slime mystery

But the chemical behaviour could also offer an explanation for the apparently intelligent behaviour of the slime mould Physarum polycephalum, which 10 years ago was shown to possess similar maze-solving abilities by Toshiyuki Nakagaki, now at in Sapporo, Japan.

鈥淭he [new] finding is interesting since it gives an insight of possible physical mechanisms for Physarum to find a path in the maze,鈥 Nakagaki says.

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