posted on 2016-04-05, 00:00authored bySyed Niaz
Ali Shah, Yongzan Zheng, Haifang Li, Jin-Ming Lin
In this work, ZnS quantum dots (QDs)
capped with mercaptopropanoic
acid were applied to the hydrogen peroxide-hydrogen sulfite chemiluminescence
(CL) system. The CL intensity of the system was significantly enhanced
by ZnS QDs in an acidic medium. The reactive oxygen species like superoxide
ion (•O2–), sulfite
(•SO3–), sulfate (•SO4–), and hydroxyl (•OH) radicals were generated in the CL reaction. It
is of worth to know that the order of addition of reagents sturdily
influences CL intensity, indicating different free radical generation
in response to the different orders. Interestingly, the addition of
water to an optimum concentration ensued a further increase in CL
signal, which may be due to hydrolysis reaction at higher concentration
of NaHSO3. The enhanced CL was induced by excited ZnS QDs,
which could be produced from the combination of hole (QDs (h+)) and electron (QDs (e–)) injected QDs as well
as by chemical resonance energy transfer from 1O2 and SO2* to ZnS QDs. Four emitters such as 1O2, (O2)2*, SO2*, and
ZnS QDs* were detected in the CL system. Mechanistic investigation
indicated that QDs acted as a catalyst, first decomposing H2O2 to generate free radicals and second prompting CL by
energy transfer and electron-transfer annihilation effects. Distinct
from most QDs CL reactions which are classically attained in basic
conditions, this system operates in an acidic medium. This may intrigue
an avenue for investigating the CL property of QDs in an acidic medium
and promote its application in various fields.