Dual-emitting polymer dots (dual-Pdots) in the visible
and second
near-infrared (NIR-II) region can facilitate the high-resolution imaging
of the fine structure and improve the signal-to-noise ratio in in
vivo imaging. Herein, combining high brightness of Pdots and multi-scale
imaging, we synthesized dual-Pdots using a simple nano-coprecipitation
method and performed multi-functional imaging of vessels, brown adipose
tissue, and bones. Results showed that in vivo blood vessel imaging
had a high resolution of up to 5.9 μm and bone imaging had a
signal-to-noise ratio of 3.9. Moreover, dual-Pdots can accumulate
in the interscapular brown adipose tissue within 2 min with a signal-to-noise
ratio of 5.8. In addition, the prepared dual-Pdots can image the lymphatic
valves and the frequency of contraction. Our study provides a feasible
method of using Pdots as nanoprobes for multi-scale imaging in the
fields of metabolic disorders, skeletal system diseases, and circulatory
systems.