(5) Evaluating the potential of Distribution of Relaxation Times analysis for plant agricultureM. Van Haeverbeke, B. De Baets and M. Stock(2023) COMPUTERS AND ELECTRONICS IN AGRICULTURE. 213, 108249. |
(4) Plant impedance spectroscopy: a review of modeling approaches and applicationsM. Van Haeverbeke, B. De Baets and M. Stock(2023) FRONTIERS IN PLANT SCIENCE. 14, 1187573. |
(3) Altered intravenous drug disposition in people living with cystic fibrosis: A meta-analysis integrating top-down and bottom-up dataP.J. De Sutter, M. Van Haeverbeke, E. Van Braeckel, S. Van Biervliet, J. Van Bocxlaer, A. Vermeulen and E. Gasthuys(2022) CPT-PHARMACOMETRICS & SYSTEMS PHARMACOLOGY. 11, 951-966. |
(2) Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains
M. Van Haeverbeke, M. Stock and B. De Baets(2022) IEEE ACCESS. 10, 51363-51379. |
(1) Practical equivalent electrical circuit identification for electrochemical impedance spectroscopy analysis with gene expression programmingM. Van Haeverbeke, M. Stock and B. De Baets(2021) IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT. 70, 2514612. |