posted on 2015-07-08, 00:00authored byHaobin Chen, Kaiwen Chang, Xiaoju Men, Kai Sun, Xiaofeng Fang, Chi Ma, Yongxi Zhao, Shengyan Yin, Weiping Qin, Changfeng Wu
Fingerprint imaging and recognition
represent the most important
approach in personal identification. Here we designed and synthesized
oxetane-functionalized semiconductor polymer dots (Ox-Pdots) for covalent
patterning and rapid visualization of latent fingerprints. The high
fluorescence brightness, large Stokes shift, and excellent surface
properties of the Ox-Pdots lead to fingerprint imaging with high sensitivity
and resolution. Fingerprint ridge structures with the first, second,
and third levels of details were clearly developed within minutes.
The method was facile and robust for visualization of fingerprints
on various surfaces including glass, metal, and plastics. Moreover,
the oxetane groups in the Ox-Pdots undergo cross-linking reactions
induced by a short-time UV irradiation, yielding 3-D intermolecular
polymer network. The resulting fingerprint patterns exhibit unparalleled
stability against rigorous treatment, as compared to those by traditional
Pdots. Our results demonstrate that the Ox-Pdots hold great promise
for latent fingerprint imaging and fluorescence anticounterfeiting
applications.