| [1] | Lee, K. P., Yip, J., Yick, K. L., Lu, C., & Lo, C. K. Textile-based fiber optic sensors for health monitoring: A systematic and citation network analysis review. Textile Research Journal 92, 2922-2934 (2022). doi: 10.1177/00405175211036206 |
| [2] | Ye, C., Wang, M., Min, J., Tay, R. Y., Lukas, H., Sempionatto, J. R., & Gao, W. A wearable aptamer nanobiosensor for non-invasive female hormone monitoring. Nature Nanotechnology 19, 330-337 (2024). |
| [3] | He, H., Fasoula, N. A., Karlas, A., Omar, M., Aguirre, J., Lutz, J., & Ntziachristos, V. Opening a window to skin biomarkers for diabetes stage with optoacoustic mesoscopy. Light: Science & Applications 12, 231 (2023). |
| [4] | Quandt, B. M., Scherer, L. J., Boesel, L. F., Wolf, M., Bona, G. L., & Rossi, R. M. Body‐Monitoring and health supervision by means of optical fiber‐based sensing systems in medical textiles. Advanced Healthcare materials 4, 330-355 (2015). doi: 10.1002/adhm.201400463 |
| [5] | Issatayeva, A., Beisenova, A., Tosi, D., & Molardi, C. Fiber-optic based smart textiles for real-time monitoring of breathing rate. Sensors 20, 3408 (2020). doi: 10.3390/s20123408 |
| [6] | Li, H., Yang, H., Li, E., Liu, Z., & Wei, K. Wearable sensors in intelligent clothing for measuring human body temperature based on optical fiber Bragg grating. Optics Express 20, 11740-11752 (2012). doi: 10.1364/OE.20.011740 |
| [7] | Leal-Junior, A., Avellar, L., Frizera, A., & Marques, C. Smart textiles for multimodal wearable sensing using highly stretchable multiplexed optical fiber system. Scientific Reports 10, 13867 (2020). doi: 10.1038/s41598-020-70880-8 |
| [8] | Aitkulov, A., & Tosi, D. Optical fiber sensor based on plastic optical fiber and smartphone for measurement of the breathing rate. IEEE Sensors Journal 19, 3282-3287 (2019). |
| [9] | Koyama, Y., Nishiyama, M., & Watanabe, K. Smart textile using hetero-core optical fiber for heartbeat and respiration monitoring. IEEE Sensors Journal 18, 6175-6180 (2018). doi: 10.1109/JSEN.2018.2847333 |
| [10] | He, C., Korposh, S., Hernandez, F. U., Liu, L., Correia, R., Hayes-Gill, B. R., & Morgan, S. P. Real-time humidity measurement during sports activity using optical fibre sensing. Sensors 20, 1904 (2020). |
| [11] | Avellar, L., Frizera, A., & Leal-Junior, A. POF Smart Pants: a fully portable optical fiber-integrated smart textile for remote monitoring of lower limb biomechanics. Biomedical Optics Express 14, 3689-3704 (2023). doi: 10.1364/BOE.492796 |
| [12] | Domingues, M. F., Alberto, N., Leitão, C. S. J., Tavares, C., De Lima, E. R., Radwan, A., & Antunes, P. F. Insole optical fiber sensor architecture for remote gait analysis—An e-health solution. IEEE Internet of Things Journal 6, 207-214 (2017). |
| [13] | Li, L., Li, Y., Yang, L., Fang, F., Yan, Z., & Sun, Q. Continuous and accurate blood pressure monitoring based on wearable optical fiber wristband. IEEE Sensors Journal, 21, 3049-3057 (2020). |
| [14] | Massaroni, C., Zaltieri, M., Presti, D. L., Nicolò, A., Tosi, D., & Schena, E. Fiber Bragg grating sensors for cardiorespiratory monitoring: A review. IEEE Sensors Journal 21, 14069-14080 (2020). |
| [15] | Krehel, M., Schmid, M., Rossi, R. M., Boesel, L. F., Bona, G. L., & Scherer, L. J. An optical fibre-based sensor for respiratory monitoring. Sensors, 14, 13088-13101 (2014). doi: 10.3390/s140713088 |
| [16] | Aitkulov, A., & Tosi, D. Design of an all-POF-fiber smartphone multichannel breathing sensor with camera-division multiplexing. IEEE Sensors Letters 3, 1-4 (2019). |
| [17] | Leal-Junior, A. G., Díaz, C. R., Leitão, C., Pontes, M. J., Marques, C., & Frizera, A. Polymer optical fiber-based sensor for simultaneous measurement of breath and heart rate under dynamic movements. Optics & Laser Technology 109, 429-436 (2019). |
| [18] | Li, J., Liu, J., Li, C., Zhang, H., & Li, Y. Wearable wrist movement monitoring using dual surface-treated plastic optical fibers. Materials 13, 3291 (2020). doi: 10.3390/ma13153291 |
| [19] | Bariya, M., Nyein, H. Y. Y., & Javey, A. Wearable sweat sensors. Nature Electronics 1, 160-171 (2018). doi: 10.1038/s41928-018-0043-y |
| [20] | Yang, D. S., Ghaffari, R., & Rogers, J. A. Sweat as a diagnostic biofluid. Science 379, 760-761 (2023). doi: 10.1126/science.abq5916 |
| [21] | Criscuolo, F., Hanitra, I. N., Aiassa, S., Taurino, I., Oliva, N., Carrara, S., & De Micheli, G. Wearable multifunctional sweat-sensing system for efficient healthcare monitoring. Sensors and Actuators B: Chemical 328, 129017 (2021). doi: 10.1016/j.snb.2020.129017 |
| [22] | Karipbayeva, K., Blanc, W., & Tosi, D. Optical fiber semi-distributed interferometer assisted by an FBG for thermorefractometry and sweat sensing. IEEE Sensors Journal 23, 14161-14166 (2023). doi: 10.1109/JSEN.2023.3277004 |
| [23] | Zhang, Z., Li, K., Li, Y., Zhang, Q., Wang, H., & Hou, C. Dual-function wearable hydrogel optical fiber for monitoring posture and sweat pH. ACS Sensors 9, 3413-3422 (2024). doi: 10.1021/acssensors.4c00780 |
| [24] | Fu, Y., Kang, S., Zhou, G., Huang, X., Tan, L., Gao, C., & Lin, C. Unlocking body-surface physiological evolution via IR-temperature dual sensing with single chalcogenide fiber. Light: Science & Applications 14, 173 (2025). |
| [25] | Lucas, P., Riley, M. R., Boussard-Plédel, C., & Bureau, B. Advances in chalcogenide fiber evanescent wave biochemical sensing. Analytical Biochemistry 351, 1-10 (2006). |
| [26] | Lucas, P., Solis, M. A., Le Coq, D., Juncker, C., Riley, M. R., Collier, J., & Bureau, B. Infrared biosensors using hydrophobic chalcogenide fibers sensitized with live cells. Sensors and Actuators B: Chemical 119, 355-362 (2006). |
| [27] | Gomes, H. C., Liu, X., Fernandes, A., Moreirinha, C., Singh, R., Kumar, S., & Marques, C. Laser-Induced graphene-based Fabry-Pérot cavity label-free immunosensors for the quantification of cortisol. Sensors and Actuators Reports 7, 100186 (2024). |