Metasurfaces for Advanced Sensing and Diagnostics (2019)
Journal Article
La Spada, L. (2019). Metasurfaces for Advanced Sensing and Diagnostics. Sensors, 19(2), 355. https://doi.org/10.3390/s19020355

Interest in sensors and their applications is rapidly evolving, mainly driven by the huge demand of technologies whose ultimate purpose is to improve and enhance health and safety. Different electromagnetic technologies have been recently used and ac... Read More about Metasurfaces for Advanced Sensing and Diagnostics.

Metamaterial-based sensor for hemoglobin measurements (2013)
Presentation / Conference Contribution
Spada, L. L., Iovine, R., & Vegni, L. (2012, November). Metamaterial-based sensor for hemoglobin measurements. Presented at 2012 Loughborough Antennas & Propagation Conference (LAPC), Loughborough, United Kingdom

The ratio Oxyhemoglobin to Deoxygenated hemoglobin is an important medical parameter for several diseases diagnostics. In this paper a metamaterial-based sensor, operating in the infrared frequency range, is presented. The structure consists of a pla... Read More about Metamaterial-based sensor for hemoglobin measurements.

Metamaterial biosensor for cancer detection (2012)
Presentation / Conference Contribution
La Spada, L., Bilotti, F., & Vegni, L. (2011, October). Metamaterial biosensor for cancer detection. Presented at 2011 IEEE Sensors, Limerick, Ireland

In this study a low-cost, compact, and high-performing metamaterial-based biosensor operating in the GHz regime is presented. The sensor is designed to detect the presence of a tumor by means of permittivity and absorption measurements. A shift in th... Read More about Metamaterial biosensor for cancer detection.

Metamaterial-based Sensor Design Working in Infrared Frequency Range (2011)
Journal Article
La Spada, L., Bilotti, F., & Vegni, L. (2011). Metamaterial-based Sensor Design Working in Infrared Frequency Range. Progress in electromagnetics research B: PIER B, 34, 205-223. https://doi.org/10.2528/pierb11060303

In this paper, we propose the design of high sensitivity and selectivity metamaterial-based biosensors operating in the THz regime. The proposed sensors consist of planar array of resonant metallic structures, whose frequency response is modified thr... Read More about Metamaterial-based Sensor Design Working in Infrared Frequency Range.

Double CSRR for water content detection in biological matter (2011)
Presentation / Conference Contribution
La Spada, L., Bilotti, F., & Vegni, L. (2011, September). Double CSRR for water content detection in biological matter. Presented at 4th EOS Topical Meeting on Optical Microsystems (OµS’11), Capri, Italy

In this study, a low-cost, compact, and high-performing metamaterial-based biosensor operating in the THz frequency range is presented. The sensor is designed to detect the presence of water content in biological matter by spectral absorption measure... Read More about Double CSRR for water content detection in biological matter.

Metamaterial resonator arrays for organic and inorganic compound sensing (2011)
Presentation / Conference Contribution
La Spada, L., Bilotti, F., & Vegni, L. (2011, August). Metamaterial resonator arrays for organic and inorganic compound sensing. Presented at Photonics Prague 2011: the 7th International Conference on Photonics, Devices and Systems, Prague, Czech Republic

In this paper, an electromagnetic metamaterial resonator operating in the terahertz frequency range is presented. By arranging the resonator in a planar array, it is possible to use the structure as a sensing device for organic and inorganic compound... Read More about Metamaterial resonator arrays for organic and inorganic compound sensing.

Metamaterial-based design of biological sensors operating at THz frequencies (2011)
Presentation / Conference Contribution
La Spada, L., Bilotti, F., & Vegni, L. (2011, October). Metamaterial-based design of biological sensors operating at THz frequencies

In this contribution, we present an omega-shaped electromagnetic resonator, which is of potential interest for THz biosensors. A new analytical model for such an inclusion-type is developed, considering the effects of the fringing capacitance. After... Read More about Metamaterial-based design of biological sensors operating at THz frequencies.