E. N. Shaforost, N. Klein, S. A. Vitusevich, A. A. Barannik, and N. T. Cherpak, High sensitivity microwave characterization of organic molecule solutions of nanoliter volume, APL, vol.94, p.112901, 2009.

P. Vélez, K. Grenier, J. Mata-contreras, D. Dubuc, and F. Martín, Highly-Sensitive Microwave Sensors based on Open Complementary Split Ring Resonators (OCSRRs) for Dielectric Characterization and Solute Concentration Measurement in Liquids, IEEE Access, vol.6, pp.48324-48338, 2018.

A. A. Abduljabar, D. J. Rowe, A. Porch, and D. A. Barrow, Novel microwave microfluidic sensor using a microstrip split-ring resonator, IEEE T-MTT, vol.62, pp.679-688, 2014.

T. Chretiennot, D. Dubuc, and K. Grenier, A microwave and microfluidic planar resonator for efficient and accurate permittivity characterization of aqueous solutions, IEEE T-MTT, vol.61, issue.2, pp.972-978, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00879539

T. Chretiennot, D. Dubuc, and K. Grenier, Double stub resonant biosensor for glucose concentrations quantification of multiple aqueous solutions, IEEE IMS2014, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01951720

T. Chretiennot, D. Dubuc, and K. Grenier, Bi-frequency-based microwave liquid sensor for multiple solutes quantification in aqueous solution, IEEE EuMC, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01951713

W. L. Clarke, D. Cox, L. A. Gonder-frederick, W. Carter, and S. L. Pohl, Evaluating clinical accuracy of systems for self-monitoring of blood glucose, Diabetes Care, vol.10, pp.622-628, 1987.