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| Development of magnetic molecularly imprinted polymers with double templates for the rapid and selective determination of amphenicol antibiotics in water, blood, and egg samples. | J Chromatogr A | 2016 Nov 18 | 27816223 |
| Performance Assessment and Comparability of a Commercial Enzyme-LinkedImmunosorbent Assay Kit with Liquid Chromatography-Tandem Mass Spectrometry forChloramphenicol Residues in Crab and Shrimp. | J Food Prot | 2016 Jan | 26735037 |
| Separation, concentration and determination of trace chloramphenicol in shrimpfrom different waters by using polyoxyethylene lauryl ether-salt aqueoustwo-phase system coupled with high-performance liquid chromatography. | Food Chem | 2016 Feb 1 | 26304334 |
| A triple-amplification SPR electrochemiluminescence assay for chloramphenicolbased on polymer enzyme-linked nanotracers and exonuclease-assisted targetrecycling. | Biosens Bioelectron | 2016 Dec 15 | 27434234 |
| A highly selective electrochemical sensor for chloramphenicol based onthree-dimensional reduced graphene oxide architectures. | Talanta | 2016 Dec 1 | 27769449 |
| Selection and Identification of Chloramphenicol-Specific DNA Aptamers byMag-SELEX. | Appl Biochem Biotechnol | 2016 Dec | 27613616 |
| Engineered "hot" core-shell nanostructures for patterned detection ofchloramphenicol. | Biosens Bioelectron | 2016 Apr 15 | 26594888 |
| A sensitive electrochemical aptasensor for multiplex antibiotics detection based on high-capacity magnetic hollow porous nanotracers coupling exonuclease-assistedcascade target recycling. | Biosens Bioelectron | 2016 Apr 15 | 26594886 |
| Rapid surface enhanced Raman scattering detection method for chloramphenicolresidues. | Spectrochim Acta A Mol Biomol Spectrosc | 2015 Jun 5 | 25754387 |