| Detection of Pesticide Residues (Fenitrothion) in Fruit Samples Based On Niobium Carbide@Molybdenum Nanocomposite: An Electrocatalytic Approach. | Anal Chim Acta | 2018 Nov 7 | 30032773 |
| Selective effects of fenitrothion on murine splenic T-lymphocyte populations and cytokine/granzyme production. | J Environ Sci Health B | 2018 May 4 | 29431569 |
| Epididymal phospholipidosis is a possible mechanism for spermatotoxicity induced by the organophosphorus insecticide fenitrothion in rats. | Toxicol Lett | 2018 Mar 15 | 29292090 |
| Two-Dimensional 1T-Phase Transition Metal Dichalcogenides as Nanocarriers ToEnhance and Stabilize Enzyme Activity for Electrochemical Pesticide Detection. | ACS Nano | 2017 Jun 27 | 28586194 |
| Surveillance of pesticide residues in fruits and vegetables from Accra Metropolismarkets, Ghana, 2010-2012: a case study in Sub-Saharan Africa. | Environ Sci Pollut Res Int | 2017 Jul | 28589271 |
| Metabolism of an Insecticide Fenitrothion by Cunninghamella elegans ATCC36112. | J Agric Food Chem | 2017 Dec 13 | 29144738 |
| The ameliorating effects of selenium and vitamin C against fenitrothion-induced blood toxicity in Wistar rats. | Environ Toxicol Pharmacol | 2017 Dec | 28961515 |
| Simultaneous determination of pesticide residues and antioxidants in blended oil using a liquid-liquid extraction combined with dispersive solid phase extraction method. | Food Chem | 2017 Aug 15 | 28372183 |
| Validation of QuEChERS based method for determination of fenitrothion residues intomatoes by gas chromatography-flame photometric detector: Decline pattern andrisk assessment. | Food Chem | 2017 Aug 15 | 28372248 |
| Graphene modified screen printed immunosensor for highly sensitive detection ofparathion. | Biosens Bioelectron | 2016 Sep 15 | 27135939 |