Version 2 2019-08-02, 18:43Version 2 2019-08-02, 18:43
Version 1 2019-08-02, 17:38Version 1 2019-08-02, 17:38
journal contribution
posted on 2019-08-02, 18:43authored byWei Chen, Chi-An Cheng, Emily D. Cosco, Shyam Ramakrishnan, Jakob G. P. Lingg, Oliver T. Bruns, Jeffrey I. Zink, Ellen M. Sletten
Tissue
is translucent to shortwave infrared (SWIR) light, rendering
optical imaging superior in this region. However, the widespread use
of optical SWIR imaging has been limited, in part, by the lack of
bright, biocompatible contrast agents that absorb and emit light above
1000 nm. J-Aggregation offers a means to transform stable, near-infrared
(NIR) fluorophores into red-shifted SWIR contrast agents. Here we
demonstrate that J-aggregates of NIR fluorophore IR-140 can be prepared
inside hollow mesoporous silica nanoparticles (HMSNs) to result in
nanomaterials that absorb and emit SWIR light. The J-aggregates inside
PEGylated HMSNs are stable for multiple weeks in buffer and enable
high resolution imaging in vivo with 980 nm excitation.