As part of our continuing study of the solid-state morphology of polyuretha
ne urea) segmented block copolymers, we focus in the current paper on the u
se of atomic force microscopy to visualize the structure of phase-separated
microdomains. Free surface and bulk images were obtained from two series o
f PUU films, for copolymers varying in hard segment content from 14 to 47 w
t %. Using a progression of AFM tapping forces, the morphology of the hard
domains at the free surfaces was found to be in the form of randomly orient
ed cylinders with additional spherical domains, both having lateral dimensi
ons on the order of 5-10 nm. At higher tapping forces, phase images of micr
otomed surfaces of relatively high hard segment content PUU copolymers appe
ar to exhibit hard segment-rich domains at two size scales. However, images
of surfaces of specimens freeze-fractured at liquid Ng temperatures (and a
cquired at relatively low tapping forces) reveal the larger structures to b
e aggregates of smaller hard microdomains.