posted on 2024-04-29, 09:48authored byHui Gong, Yuxian Zhou, Peihua Ma, Xin Xiao, Houjing Liu
The
development of chemiluminescence-based innovation sensing systems
and the construction of a sensing mechanism to improve the analytical
performance of compounds remain a great challenge. Herein, we fabricated
an advanced oxidation processes pretreated chemiluminescence (AOP-CL)
sensing system via the introduction of cobalt-modified black phosphorus
nanosheets (Co@BPNs) to achieve higher efficient thiabendazole (TBZ)
detection. Co@BPNs, enriched with lattice oxygen, exhibited a superior
catalytic performance for accelerating the decomposition of ferrate
(VI). This Co@BPNs-based ferrate (VI) AOP system demonstrated a unique
ability to selectively decompose TBZ, resulting in a strong CL emission.
On this basis, a highly selective and sensitive CL sensing platform
for TBZ was established, which exhibited strong resistance to common
ions and pesticides interference. This was successfully applied to
detecting TBZ in environmental samples such as tea and kiwi fruits.
Besides, the TBZ detection mechanism was explored, Co@BPNs-based ferrate
(VI) AOP system produced a high yield of ROS (mainly 1O2), which oxidized the thiazole-based structure of TBZ, generating
chemical energy that was transferred to Co@BPNs via a chemical electron
exchange luminescence (CIEEL) mechanism, leading to intense CL emission.
Notably, this study not only proposed an innovative approach to enhance
the chemical activity and CL properties of nanomaterials but also
offered a new pathway for designing efficient CL probes for pollutant
monitoring in complex samples.