Applied magnetic field represents an effective tool to
rapidly
assemble micro- and nanoscale magnetic objects into defined structures.
Ordered assembly is typically achieved by using magnetic micropatterns,
for which the downside is that they require advanced microfabrication
techniques to produce. In addition, most conventional magnetic assembly
strategies are restricted to target objects that possess magnetic
properties. Herein we present a general strategy that allows convenient
magnetically driven assembly of nonmagnetic objects in defined locations
with high spatial resolution. The process involves immersing a polymer
relief pattern in a uniformly magnetized ferrofluid, which modulates
the local magnetic fields around the pattern. Nonmagnetic target objects
dispersed in the same ferrofluid can then be magnetically assembled
at positions defined by the polymer pattern. As the nonmagnetic polymer
patterns can be conveniently fabricated at low cost through photolithography
and soft-lithography processes, our method provides a general yet
very effective means to assemble a wide range of nonmagnetic objects
with controlled spatial distribution, paving the way toward patterning
functional microstructures.