As
most of the known systems are flashtype, long-lasting chemiluminescence
(CL) emissions are extremely needed for the application of cold light
sources, accurate CL quantitative analysis, and biological mapping.
In this work, the flashtype system of luminol was altered to a long
lasting CL system just because of the paper substrate. The Cu(II)-based
organic complex was loaded on the paper surface, which can trigger
luminol-H2O2 to produce a long lasting CL emission
for over 30 min. By using 1,10-phenanthroline-2,9-dicarboxylic acid
(PDA) as the ligand, a hexacoordinated Cu(II)-based organic complex
was synthesized by the simple freeze-drying method. It is interesting
that the complex morphology can be controlled by adding different
amounts of water in the synthesizing procedure. The complex with a
certain size can be definitely trapped in the pores of the cellulose.
Then, slow diffusion, which can be attributed to the long lasting
CL emission, was produced. With the high catalytic activity of the
complex, reactive oxygen species from H2O2 was
generated and was responsible for the high CL intensity. By using
the paper substrate, the flash-type luminol system can be easily transferred
to the long-duration CL system without any extra reagent. This long-lasting
emission system was used for hydrogen sulfide detection by the CL
imaging method. This paper-based sensor has great potential for CL
imaging in the clinical field in the future.