Articles dans des revues avec comité de lecture (37)
  1. 1. Akhtar, Z., Barhdadi, S., De Braekeleer, K., Delporte, C., Adams, E., & Deconinck, E. (2024). Spectroscopy and Chemometrics for Conformity Analysis of e-Liquids: Illegal Additive Detection and Nicotine Characterization. Chemosensors, 12(1), 9. doi:10.3390/chemosensors12010009
  2. 2. Deconinck, E., Polet, M., Canfyn, M., Duchateau, C., De Braekeleer, K., Van Echelpoel, R., De Waele, K., Gremeaux, L., Degreef, M., & Balcaen, M. (2023). Evaluation of an electrochemical sensor and comparison with spectroscopic approaches as used today in practice for harm reduction in a festival setting—A case study: Analysis of 3,4‐methylenedioxymethamphetamine samples. Drug Testing and Analysis. doi:10.1002/dta.3625
  3. 3. Duchateau, C., Stévigny, C., De Braekeleer, K., & Deconinck, E. (2023). Characterization of CBD oils, seized on the Belgian market, using infrared spectroscopy: Matrix identification and CBD determination, a proof of concept. Drug Testing and Analysis. doi:10.1002/dta.3583
  4. 4. El Maouardi, M., Alaoui Mansouri, M., De Braekeleer, K., Bouklouze, A., & Heyden, Y. (2023). Evaluation of Multivariate Filters on Vibrational Spectroscopic Fingerprints for the PLS-DA and SIMCA Classification of Argan Oils from Four Moroccan Regions. Molecules, 28(15), 5698. doi:10.3390/molecules28155698
  5. 5. Elmaouardi, M., De Braekeleer, K., Vander Heyden, P., & Bouklouze, A. (2023). Quality Control and Authentication of Argan Oils : Application of advanced Analytical Techniques. Molecules. doi:doi.org/10.3390/molecules28041818
  6. 6. Deconinck, E., Canfyn, M., Duchateau, C., & De Braekeleer, K. (2022). Response to letter to the editor: “Comments on ‘discrepancies between validated GC‐FID and UHPLC‐DAD methods for the analysis of Δ‐9‐THC and CBD in dried hemp flowers’”. Drug Testing and Analysis, 15(2), 247-249. doi:10.1002/dta.3388
  7. 7. Duchateau, C., De Leersnijder, C., Barhdadi, S., Canfyn, M., De Braekeleer, K., & Deconinck, E. (2022). Discrepancies between validated GC‐FID and UHPLC‐DAD methods for the analysis of Δ‐9‐THC and CBD in dried hemp flowers. Drug Testing and Analysis. doi:10.1002/dta.3354
  8. 8. De Leersnijder, C., Duchateau, C., De Braekeleer, K., & Deconinck, E. (2022). Relative response factors and multiple regression models in liquid chromatography to quantify low-dosed components using alternative standards—proof of concept: total Δ9-THC content in cannabis flowers using CBD as reference. Analytical and Bioanalytical Chemistry. doi:10.1007/s00216-022-04208-y
  9. 9. Busha Tibasima, E., De Braekeleer, K., & Deconinck, É. E. (2022). Contents of amoxillin drugs dispensed in Goma, Democratic Republic of Congo. African journal of pharmacy and pharmaceutical sciences. doi:doi.org/10.51483/AFJPS.2.1.2022.14-22
  10. 10. Mees, C., Kauffmann, J.-M., Pierna, J. A. F., & De Braekeleer, K. (2022). Benchtop NIR standardization on handheld spectrometers to identify paracetamol tablets. Journal of chemometrics. doi:doi.org/10.1002/cem.3389
  11. 11. Sakaria, A. K., Mees, C., & De Braekeleer, K. (2021). Determination of the quality of metronidazole formulations by near-infrared spectrophotometric analysis. Talanta Open. doi:https://doi.org/10.1016/j.talo.2020.100027
  12. 12. SAKIRA, A. K., Mees, C., De Braekeleer, K., Delporte, C., Yameogo, J., YABRE, M., Some, T. I., Van Antwerpen, P., Mertens, D., & Kauffmann, J.-M. (2021). Determination of the quality of metronidazole formulations by near-infrared spectrophotometric analysis. Talanta Open, 3, 100027. doi:10.1016/j.talo.2020.100027
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