Multi-Emissive Difluoroboron Dibenzoylmethane Polylactide Exhibiting Intense Fluorescence and Oxygen-Sensitive Room-Temperature Phosphorescence

Guoqing Zhang(Massachusetts Institute of Technology), Jianbin Chen(Institute for Soldier Nanotechnologies), Sarah J. Payne(University of Virginia), Steven E. Kooi(Institute for Soldier Nanotechnologies), J. N. Demas(Institute for Soldier Nanotechnologies), Cassandra L. Fraser(Massachusetts Institute of Technology)
Journal of the American Chemical Society
July 1, 2007
10.1021/ja0720255
Cited by 618

Abstract

Boron difluoride compounds are light emitting materials with impressive optical properties. Though their strong one- and two-photon absorption and intense fluorescence are well-known and exploited in molecular probes, lasers, and photosensitizers, phosphorescence, in contrast, is typically observed only at low temperatures. Here, we report that unusual room-temperature phosphorescence is achieved by combining a classic boron dye, difluoroboron dibenzoylmethane, BF2dbm, with poly(lactic acid) (PLA), a common biopolymer, resulting in a highly sensitive single-component oxygen sensor. Fluorescence quantum yields are enhanced, and temperature-sensitive delayed fluorescence is also observed. Multi-emissive BF2dbmPLA biomaterials show great promise as multifunctional molecular probes and sensors.

Related Papers

Controlled Ring-Opening Polymerization of Lactide and Glycolide
Odile Dechy‐Cabaret, Blanca Martín-Vaca, Didier Bourissou|Chemical Reviews|2004|2.2k
Recent Developments in Ring Opening Polymerization of Lactones for Biomedical Applications
Ann‐Christine Albertsson, I. K. Varma|Biomacromolecules|2003|1.5k
In Vitro Demonstration of the Heavy-Atom Effect for Photodynamic Therapy
Aoife Gorman, J. Killoran, Caroline O'Shea et al.|Journal of the American Chemical Society|2004|895
Luminescence quenching mechanism for microheterogeneous systems
Elizabeth R. Carraway, J. N. Demas, Β. A. DeGraff|Analytical Chemistry|1991|265
Diaroyl(methanato)boron Difluoride Compounds as Medium‐Sensitive Two‐Photon Fluorescent Probes
Emmanuelle Cogné‐Laage, Jean‐François Allemand, Odile Ruel et al.|Chemistry - A European Journal|2004|201