SWIR emissive RosIndolizine dyes with nanoencapsulation in water soluble dendrimers

Authors

Satadru Chatterjee, University of Mississippi
William E. Meador, University of Mississippi
Cameron Smith, University of Mississippi
Indika Chandrasiri, University of Mississippi
Mohammad Farid Zia, University of Southern Mississippi
Jay Nguyen, University of Southern Mississippi
Austin Dorris, University of Mississippi
Alex Flynt, University of Southern Mississippi
Davita L. Watkins, University of Mississippi
Nathan I. Hammer, University of Mississippi
Jared H. Delcamp, University of Mississippi

Document Type

Article

Publication Date

8-9-2021

Abstract

Shortwave infrared (SWIR) emission has great potential for deep-tissuein vivobiological imaging with high resolution. In this article, the synthesis and characterization of two new xanthene-based RosIndolizine dyes codedPhRosIndz andtolRosIndz is presented. The dyes are characterizedviafemtosecond transient absorption spectroscopy as well as steady-state absorption and emission spectroscopies. The emission of these dyes is shown in the SWIR region with peak emission at 1097 nm.TolRosIndz was encapsulated with an amphiphilic linear dendritic block co-polymer (LDBC) coded 10-PhPCL-G3 with high uptake yield. Further, cellular toxicity was examinedin vitrousing HEK (human embryonic kidney) cells where a >90% cell viability was observed at practical concentrations of the encapsulated dye which indicates low toxicity and reasonable biocompatibility.

Relational Format

journal article

Recommended Citation

Chatterjee, S., Meador, W. E., Smith, C., Chandrasiri, I., Zia, M. F., Nguyen, J., Dorris, A., Flynt, A., Watkins, D. L., Hammer, N. I., & Delcamp, J. H. (2021). SWIR emissive RosIndolizine dyes with nanoencapsulation in water soluble dendrimers. RSC Advances, 11(45), 27832–27836. https://doi.org/10.1039/D1RA05479A

DOI

10.1039/d1ra05479a

Accessibility Status

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