As an antibiotic,tetracycline has been widely used against bacterial infection or as feed additives for growth promotion,which may lead to the enrichment of antibiotic residues in animals or their products.Therefore,t...As an antibiotic,tetracycline has been widely used against bacterial infection or as feed additives for growth promotion,which may lead to the enrichment of antibiotic residues in animals or their products.Therefore,the detection of tetracycline is closely related to human health.The morphological transformation of CoOOH nanoflakes induced by tetracycline was monitored by scanning electron microscope images,dark-field light scattering images and optical spectra,which found that tetracycline could decompose CoOOH nanoflakes into small nanoparticles with low light scattering signal.As a result,the reduced light scattering of CoOOH nanoflakes was proportional to the increased concentration of tetracycline in the range of 1.0-250μmol/L,and the limit of determination(LOD)was 0.23μmol/L(3σ/k).Most foreign substances did not interfere in the analysis of tetracycline.Furthermore,the concentration of tetracycline in different milk samples detected with the standard addition method was so low that it accorded with the safety regulation,which was similar to the detection result with high-performance liquid chromatography(HPLC).展开更多
基金the National Natural Science Foundation of China(No.21405123)the Innovation and Entrepreneurship Project of Southwest University(20172902008)+1 种基金the College of Pharmaceutical Sciences Innovation and Entrepreneurship Project of Southwest University(YX2017-CXYB-10)the Open Funding Project of the State Key Laboratory of Bioreactor Engineering.
文摘As an antibiotic,tetracycline has been widely used against bacterial infection or as feed additives for growth promotion,which may lead to the enrichment of antibiotic residues in animals or their products.Therefore,the detection of tetracycline is closely related to human health.The morphological transformation of CoOOH nanoflakes induced by tetracycline was monitored by scanning electron microscope images,dark-field light scattering images and optical spectra,which found that tetracycline could decompose CoOOH nanoflakes into small nanoparticles with low light scattering signal.As a result,the reduced light scattering of CoOOH nanoflakes was proportional to the increased concentration of tetracycline in the range of 1.0-250μmol/L,and the limit of determination(LOD)was 0.23μmol/L(3σ/k).Most foreign substances did not interfere in the analysis of tetracycline.Furthermore,the concentration of tetracycline in different milk samples detected with the standard addition method was so low that it accorded with the safety regulation,which was similar to the detection result with high-performance liquid chromatography(HPLC).
