posted on 2018-05-16, 00:00authored byJulie Desarnaud, Hannelore Derluyn, Jan Carmeliet, Daniel Bonn, Noushine Shahidzadeh
The
growth of hopper crystals is observed for many substances,
but the mechanism of their formation remains ill understood. Here
we investigate their growth by performing evaporation experiments
on small volumes of salt solutions. We show that sodium chloride crystals
that grow very fast from a highly supersaturated solution form a peculiar
form of hopper crystal consisting of a series of connected miniature
versions of the original cubic crystal. The transition between cubic
and such hopper growth happens at a well-defined supersaturation where
the growth rate of the cubic crystal reaches a maximum (∼6.5
± 1.8 μm/s). Above this threshold, the growth rate varies
as the third power of supersaturation, showing that a new mechanism,
controlled by the maximum speed of surface integration of new molecules,
induces the hopper growth of cubic crystals in cascade.