卡塔普
残留物(化学)
化学
硫代氨基甲酸酯类
氧化物
TSG101型
纳米生物技术
环境化学
相对标准差
介孔材料
作者
Yingchao Yang,Juan Yu,Hanning Song,Chenxi Li,Xujie Wang,Huitian Zhi,Ruhui Shang,Lei Hu,Wenli Yao,Zhengquan Yan
标识
DOI:10.1021/acs.jafc.5c10791
摘要
A mesoporous Ce/Zn oxide nanozyme (Ce/Zn ONN) was developed for portable tracking of the cartap residue and toxic S2– in agricultural products. Ce/Zn ONN possessed a high specific surface area of 107.87 m2·g–1 and superior oxidase-mimic activity to promote the oxidation of 3,3′,5,5′-tetramethylbenzidine (TMB) with a Km/Vmax of 0.24 mM/4.07 × 10–8 M/s. Under optimized oxidase-mimic conditions, trace cartap or S2– could deteriorate the color of Ce/Zn ONN–TMB with a clear hypochromic effect, from blue to colorless. With the help of a smartphone APP, Ce/Zn ONN–TMB was applied for dual-mode ultraviolet–visible (UV–vis) and red-green-blue (RGB) tracking of the cartap residue and S2– in agricultural products. The detection limits (LODs) were 3.84 × 10–8/3.68 × 10–7 g/mL for ultraviolet-visible (UV–vis)/RGB detection of cartap with the relative standard deviation (RSD%) of less than 3.12%/3.25% and 3.15 × 10–8/5.62 × 10–8 M for S2– with RSD% of less than 3.54%/3.87% respectively. Moreover, cartap degradation results in living vegetables could be tracked, and the recognition mechanisms were proposed as well.
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