posted on 2023-08-02, 18:04authored byHasan Babaei, Katie R. Meihaus, Jeffrey R. Long
The ability to control thermal transport is critical
for the design
of thermal rectifiers, logic gates, and transistors, although it remains
a challenge to design materials that exhibit large changes in thermal
conductivity with switching ratios suitable for practical applications.
Here, we propose the use of flexible metal–organic frameworks,
which can undergo significant structural changes in response to various
stimuli, to achieve tunable switchable thermal conductivity. In particular,
we use molecular dynamics simulations to show that the thermal conductivity
of the flexible framework Fe(bdp) (bdp2– = 1,4-benzenedipyrazolate)
becomes highly anisotropic upon transitioning from the expanded to
the collapsed phase, with the conductivity decreasing by nearly an
order of magnitude along the direction of compression. Our results
add to a small but growing number of studies investigating metal–organic
frameworks for thermal transport.