Papers – Sensors

2020

Pasinetti, S., Nuzzi, C., Covre, N., Luchetti, A., Maule, L., Serpelloni, M., Lancini, M. Validation of marker-less system for the assessment of upper joints reaction forces in exoskeleton users (2020) Sensors (Switzerland), 20 (14), art. no. 3899, pp. 1-26. DOI: 10.3390/s20143899https://mauro-serpelloni.unibs.it/wp-content/uploads/Validation-of-Marker-Less-System-for-the-Assessment-of-Upper-Joints-Reaction-Forces-in-Exoskeleton-Users.pdf

Tonello, S., Borghetti, M., Sardini, E., Serpelloni, M. Improved portable measuring device for real-time humidity and temperature monitoring in intensive care unit (2020) IEEE Instrumentation and Measurement Magazine, 23 (4), art. no. 9126076, pp. 79-86. DOI: 10.1109/MIM.2020.9126076 https://mauro-serpelloni.unibs.it/wp-content/uploads/Improved-portable-measuring-device-for-real-time-humidity-and-temperature-monitoring-in-intensive-care-unit.pdf

Abdullah, S., Serpelloni, M., Sardini, E. Design of multichannel potentiostat for remote and longtime monitoring of glucose concentration during yeast fermentation (2020) The Review of scientific instruments, 91 (5), p. 054104. DOI: 10.1063/1.5137789 https://mauro-serpelloni.unibs.it/wp-content/uploads/Design-of-multichannel-potentiostat-for-remote-and-longtime-monitoring-of-glucose-concentration-during-yeast-fermentation.pdf

Bellitti, P., Angelis, A.D., DIonigi, M., Sardini, E., Serpelloni, M., Moschitta, A., Carbone, P. A Wearable and Wirelessly Powered System for Multiple Finger Tracking (2020) IEEE Transactions on Instrumentation and Measurement, 69 (5), art. no. 8968384, pp. 2542-2551. DOI: 10.1109/TIM.2020.2969089 https://mauro-serpelloni.unibs.it/wp-content/uploads/A-Wearable-and-Wirelessly-Powered-System-for-Multiple-Finger-Tracking.pdf

Tonello, S., Bianchetti, A., Braga, S., Almici, C., Marini, M., Piovani, G., Guindani, M., Dey, K., Sartore, L., Re, F., Russo, D., Cantù, E., Lopomo, N.F., Serpelloni, M., Sardini, E. Impedance-based monitoring of mesenchymal stromal cell three-dimensional proliferation using aerosol jet printed sensors: A tissue engineering application (2020) Materials, 13 (10), art. no. 2231, . DOI: 10.3390/ma13102231 https://mauro-serpelloni.unibs.it/wp-content/uploads/Impedance-Based-Monitoring-of-Mesenchymal-Stromal-Cell-Three-Dimensional-Proliferation-Using-Aerosol-Jet-Printed-Sensors-A-Tissue-Engineering-Application.pdf

Serpelloni, M., Cantù, E., Borghetti, M., Sardini, E. Printed smart devices on cellulose-based materials by means of aerosol-jet printing and photonic curing (2020) Sensors (Switzerland), 20 (3), art. no. 841, . DOI: 10.3390/s20030841 https://mauro-serpelloni.unibs.it/wp-content/uploads/Printed-Smart-Devices-on-Cellulose-Based-Materials-by-means-of-Aerosol-Jet-Printing-and-Photonic-Curing.pdf

2019

Tonello, S., Stradolini, F., Abate, G. et al. Electrochemical detection of different p53 conformations by using nanostructured surfaces. Sci Rep9, 17347 (2019) doi:10.1038/s41598-019-53994-6 https://mauro-serpelloni.unibs.it/wp-content/uploads/Electrochemical-detection-of-different-p53-conformations-by-using-nanostructured-surfaces.pdf

Borghetti, M., Serpelloni, M., Sardini, E. Printed strain gauge on 3D and low-melting point plastic surface by aerosol jet printing and photonic curing (2019) Sensors (Switzerland), 19 (19), art. no. 4220, . DOI: 10.3390/s19194220 https://mauro-serpelloni.unibs.it/wp-content/uploads/Printed-Strain-Gauge-on-3D-and-Low-Melting-Point-Plastic-Surface-by-Aerosol-Jet-Printing-and-Photonic-Curing.pdf

Tonello, S., Borghetti, M., Lopomo, N.F., Serpelloni, M., Sardini, E., Marziano, M., Serzanti, M., Uberti, D., Dell’era, P., Inverardi, N., Gualandi, C., Focarete, M.L. Ink-jet printed stretchable sensors for cell monitoring under mechanical stimuli: A feasibility study (2019) Journal of Mechanics in Medicine and Biology, 19 (6), art. no. 1950049, . DOI: 10.1142/S0219519419500490 https://mauro-serpelloni.unibs.it/wp-content/uploads/INK-JET-PRINTED-STRETCHABLE-SENSORS-FOR-CELL-MONITORING-UNDER-MECHANICAL-STIMULI-A-FEASIBILITY-STUDY.pdf

Bellitti, P., Bona, M., Borghetti, M., Sardini, E., Serpelloni, M., Fontana, S. Reconfigurable measuring system for the automatic detection of bacterial growth in a specimen processing platform (2019) Acta IMEKO, 8 (2), pp. 35-44. DOI: 10.21014/acta_imeko.v8i2.634 https://mauro-serpelloni.unibs.it/wp-content/uploads/Reconfigurable-measuring-system-for-the-automatic-detection-of-bacterial-growth-in-a-specimen-processing-platform.pdf

Abdullah, S., Tonello, S., Borghetti, M., Sardini, E., Serpelloni, M. Potentiostats for protein biosensing: Design considerations and analysis on measurement characteristics (2019) Journal of Sensors, 2019, art. no. 6729329. DOI: 10.1155/2019/6729329 https://mauro-serpelloni.unibs.it/wp-content/uploads/Potentiostats-for-Protein-Biosensing-Design-Considerations-and-Analysis-on-Measurement-Characteristics.pdf

Di Novo, N.G., Cantù, E., Tonello, S., Sardini, E., Serpelloni, M. Support-Material-Free Microfluidics on an Electrochemical Sensors Platform by Aerosol Jet Printing (2019) Sensors (Basel, Switzerland), 19 (8). DOI: 10.3390/s19081842 https://mauro-serpelloni.unibs.it/wp-content/uploads/Support-Material-Free-Microfluidics-on-an-Electrochemical-Sensors-Platform-by-Aerosol-Jet-Printing.pdf

Marziano, M., Tonello, S., Cantù, E., Abate, G., Vezzoli, M., Rungratanawanich, W., Serpelloni, M., Lopomo, N.F., Memo, M., Sardini, E., Uberti, D. Monitoring Caco-2 to enterocyte-like cells differentiation by means of electric impedance analysis on printed sensors (2019) Biochimica et Biophysica Acta – General Subjects, 1863 (5), pp. 893-902. DOI: 10.1016/j.bbagen.2019.02.008 https://mauro-serpelloni.unibs.it/wp-content/uploads/Monitoring-Caco-2-to-enterocyte-like-cells-differentiation-by-means-of-electric-impedance-analysis-on-printed-sensors.pdf

Khan, M.A., Borghetti, M., Serpelloni, M., Sardini, E. Implantable autonomous device for wireless force measurement in total knee prosthesis (2019) IEEE Instrumentation and Measurement Magazine, 22 (1), art. no. 8633351, pp. 39-47. DOI: 10.1109/MIM.2019.8633351 https://mauro-serpelloni.unibs.it/wp-content/uploads/Implantable-autonomous-device-for-wireless-force-measurement-in-total-knee-prosthesis.pdf

Bellitti, P., Bodini, A., Borghetti, M., Filippini, M., Latronico, N., Sardini, E., Serpelloni, M., Tonello, S.A compact low-power wireless system for in vivo evaluation of heat and moisture exchanger performance (2019) Measurement Science and Technology, 30 (2), art. no. 025701, . DOI: 10.1088/1361-6501/aaf406 https://mauro-serpelloni.unibs.it/wp-content/uploads/A-compact-low-power-wireless-system-for-in-vivo-evaluation-of-heat-and-moisture-exchanger-performance.pdf

Khan, M.A., Cantù, E., Tonello, S., Serpelloni, M., Lopomo, N.F., Sardini, E.A review on biomaterials for 3D conductive scaffolds for stimulating and monitoring cellular activities (2019) Applied Sciences (Switzerland), 9 (5), art. no. 961, . DOI: 10.3390/app9050961https://mauro-serpelloni.unibs.it/wp-content/uploads/A-review-on-biomaterials-for-3D-conductive-scaffolds-for-stimulating-and-monitoring-cellular-activities.pdf

Calanca, A., Dimo, E., Vicario, R., Fiorini, P., Serpelloni, M., Legnani, G. Introducing series elastic links for affordable torque-controlled robots(2019) IEEE Robotics and Automation Letters, 4 (1), art. no. 8510807, pp. 137-144. DOI: 10.1109/LRA.2018.2878353 https://mauro-serpelloni.unibs.it/wp-content/uploads/Introducing-series-elastic-links-for-affordable-torque-controlled-robots.pdf

Filippini, M., Serpelloni, M., Quaranta, V., Bellitti, P., Sardini, E., Latronico, N.A New Method for in Vivo Analysis of the Performances of a Heat and Moisture Exchanger (HME) in Mechanically Ventilated Patients (2019) Pulmonary Medicine, 2019, art. no. 9270615, . DOI: 10.1155/2019/9270615 https://mauro-serpelloni.unibs.it/wp-content/uploads/A-New-Method-for-in-Vivo-Analysis-of-the-Performances-of-a-Heat-and-Moisture-Exchanger-HME-in-Mechanically-Ventilated-Patients.pdf

Calanca, A., Bettinelli, L., Dimo, E., Vicario, R., Serpelloni, M., Fiorini, P. Introducing series elastic links (2019) Biosystems and Biorobotics, 22, pp. 465-469. DOI: 10.1007/978-3-030-01887-0_90 https://mauro-serpelloni.unibs.it/wp-content/uploads/Introducing-series-elastic-links-for-affordable-torque-controlled-robots.pdf

2018 and before

• Cantù, E., Tonello, S., Abate, G., Uberti, D., Sardini, E., Serpelloni, M. Aerosol jet printed 3D electrochemical sensors for protein detection (2018) Sensors (Switzerland), 18 (11), art. no. 3719, . DOI: 10.3390/s18113719 https://mauro-serpelloni.unibs.it/wp-content/uploads/Aerosol-jet-printed-3D-electrochemical-sensors-for-protein-detection.pdf

• Bona, M., Borghetti, M., Sardini, E., Serpelloni, M. Telemetric Technique for Passive Resistive Sensors Based on Impedance Real Part Measurement at Fixed Frequency (2018) IEEE Transactions on Instrumentation and Measurement, 67 (9), art. no. 8316934, pp. 2160-2168. DOI: 10.1109/TIM.2018.2811279 Telemetric Technique for Passive Resistive Sensors Based on Impedance Real Part Measurement at Fixed Frequency

• Borghetti, M., Serpelloni, M., Sardini, E., Casas, O. Multi Sensor System for Analyzing the Thigh Movement during Walking (2017) IEEE Sensors Journal, . Article in Press. DOI: 10.1109/JSEN.2017.2715857 Multi Sensor System for Analyzing the Thigh Movement during Walking

• Tonello, S., Abate, G., Borghetti, M., Marziano, M., Serpelloni, M., Uberti, D.L., Lopomo, N.F., Memo, M., Sardini, E. Wireless Point-of-Care Platform With Screen-Printed Sensors for Biomarkers Detection (2017) IEEE Transactions on Instrumentation and Measurement, . Article in Press. DOI: 10.1109/TIM.2017.2692308 Wireless Point-of-Care Platform With Screen-Printed Sensors for Biomarkers Detection

• Bona, M., Serpelloni, M., Sardini, E., Lombardo, C.O., Andò, B. Telemetric Technique for Wireless Strain Measurement From an Inkjet-Printed Resistive Sensor (2017) IEEE Transactions on Instrumentation and Measurement, 66 (4), art. no. 7577755, pp. 583-591. DOI: 10.1109/TIM.2016.2607958 Telemetric Technique for Wireless Strain Measurement From an Inkjet-Printed Resistive

• Lancini, M., Serpelloni, M., Pasinetti, S., Guanziroli, E. Healthcare Sensor System Exploiting Instrumented Crutches for Force Measurement during Assisted Gait of Exoskeleton Users (2016) IEEE Sensors Journal, 16 (23), art. no. A8228, pp. 8228-8237. DOI: 10.1109/JSEN.2016.2579738Healthcare Sensor System Exploiting Instrumented Crutches for Force Measurement during Assisted Gait of Exoskeleton Users

• Borghetti, M., Serpelloni, M. Measuring inside your mouth! Measurement approaches, design considerations, and one example for tongue pressure monitoring (2016) IEEE Instrumentation and Measurement Magazine, 19 (5), art. no. 7579069, pp. 41-48. DOI: 10.1109/MIM.2016.7579069 Measuring inside your mouth! Measurement approaches, design considerations, and one

• Borghetti, M., Ghittorelli, M., Sardini, E., Serpelloni, M., Torricelli, F. Electrical characterization of PEDOT: PSS strips deposited by inkjet printing on plastic foil for sensor manufacturing (2016) IEEE Transactions on Instrumentation and Measurement, 65 (9), art. no. 7485885, pp. 2137-2144. DOI: 10.1109/TIM.2016.2571518 Electrical Characterization of PEDOTPSS Strips Deposited by Inkjet Printing on Plastic Foil for

• Borghetti, M. Serpelloni, M., Sardini, E., Pandini, S., Mechanical behavior of strain sensors based on PEDOT:PSS and silver nanoparticles inks deposited on polymer substrate by inkjet printing, Sensors and Actuators A 243 (2016) 71–80 10.1016/j.sna.2016.03.021 2016 – Mechanical behavior of strain sensors based on PEDOTPSS and silver nanoparticles inks deposited on polymer substrate by inkjet printing

• Dionisi, A. Marioli, D. Sardini, E. Serpelloni, M., Autonomous Wearable System for Vital Signs Measurement With Energy-Harvesting Module, IEEE Transactions on Instrumentation and Measurement, .IEEE Transactions on Instrumentation and Measurement 65(6),7398038, pp. 1423-1434. DOI: 10.1109/TIM.2016.2519779 2016 – Autonomous Wearable System for Vital Signs Measurement With Energy-Harvesting Module
  
  

  Autonomous wearable system with power harvesting

• Sardini, E., Serpelloni, M., Lancini, M. Wireless Instrumented Crutches for Force and Movement Measurements for Gait Monitoring (2015) IEEE Transactions on Instrumentation and Measurement, . Article in Press. DOI: 10.1109/TIM.2015.2465751 Wireless Instrumented Crutches for Force and Movement Measurements for Gait Monitoring

• Sardini, E., Serpelloni, M., Pasqui, V. Wireless wearable t-shirt for posture monitoring during rehabilitation exercises (2015) IEEE Transactions on Instrumentation and Measurement, 64 (2), art. no. 6879298, pp. 439-448. DOI:10.1109/TIM.2014.2343411 Wireless wearable t-shirt for posture monitoring during rehabilitation exercises

• Luciano, V., Sardini, E., Serpelloni, M., Baronio, G. An energy harvesting converter to power sensorized total human knee prosthesis (2014) Measurement Science and Technology, 25 (2), art. no. 025702, DOI:10.1088/0957-0233/25/2/025702. An energy harvesting converter to power sensorized total human knee prosthesis

• Cadei, A., Dionisi, A., Sardini, E., Serpelloni, M. Kinetic and thermal energy harvesters for implantable medical devices and biomedical autonomous sensors (2014) Measurement Science and Technology, 25 (1), art. no. 012003, DOI:10.1088/0957-0233/25/1/012003. Kinetic and thermal energy harvesters for implantable medical devices and biomedical autonomous sensors

• Baronio, G., Luciano, V., Sardini, E., Serpelloni, M. Design considerations of an electromechanical generator implanted in human total knee prosthesis (2013) International Journal of Mechatronics and Manufacturing Systems, 6 (3), pp. 270-284. DOI: 10.1504/IJMMS.2013.056453 ISSN: 1753-1039. Design considerations of an electromechanical generator implanted in human total knee prosthesis

• Borghetti, M., Sardini, E., Serpelloni, M. Sensorized glove for measuring hand finger flexion for rehabilitation purposes (2013) IEEE Transactions on Instrumentation and Measurement, 62 (12), art. no. 6566034, pp. 3308-3314. DOI: 10.1109/TIM.2013.2272848 ISSN: 0018-9456. Sensorized glove for measuring the flexion of the fingers of the hand for rehabilitation purposes

• Sardini, E., Serpelloni, M. Wireless measurement electronics for passive temperature sensor (2012) IEEE Transactions on Instrumentation and Measurement, 61 (9), art. no. 6209429, pp. 2354-2361. Doi: 10.1109/TIM.2012.2199189 Wireless Measurement Electronics for Passive Temperature Sensor

• Sardini, E., Serpelloni, M. An efficient electromagnetic power harvesting device for low-frequency applications (2011) Sensors and Actuators, A: Physical, 172 (2), pp. 475-482. DOI: 10.1016/j.sna.2011.09.013 An efficient electromagnetic power harvesting device for low-frequency

• Sardini, E., Serpelloni, M. Self-powered wireless sensor for air temperature and velocity measurements with energy harvesting capability (2011) IEEE Transactions on Instrumentation and Measurement, 60 (5), art. no. 5629365, pp. 1838-1844. Doi: 10.1109/TIM.2010.2089090. Self-powered wireless sensor for air temperature and velocity measurements with energy harvesting

• Crescini, D., Sardini, E., Serpelloni, M. Design and test of an autonomous sensor for force measurements in human knee implants (2011) Sensors and Actuators, A: Physical, 166 (1), pp. 1-8. Doi:10.1016/j.sna.2010.12.010 Design and test of an autonomous sensor for force measurements in human knee implants

• Andò, B., Baglio, S., Baù, M., Ferrari, V., Sardini, E., Savalli, N., Serpelloni, M., Trigona, C. Numerical and experimental investigation on contactless resonant sensors (2010) Sensors and Actuators, A: Physical, 162 (2), pp. 329-335. Doi:10.1016/j.sna.2010.04.009. Numerical and Experimental Investigation on Contactless Resonant Sensor

•  Marioli, D., Sardini, E., Serpelloni, M. Passive Hybrid MEMS for High-Temperature Telemetric Measurements (2010) IEEE Transactions on Instrumentation and Measurement, 59 (5), art. no. 5371988, pp. 1353-1361. Doi: 10.1109/TIM.2009.2038026. Passive Hybrid MEMS for High Temperature Telemetric Measurements

• Depari, A., Flammini, A., Marioli, D., Serpelloni, M., Sisinni, E., Taroni, A. Efficient sensor signal filtering for autonomous wireless nodes (2010) IEEE Transactions on Instrumentation and Measurement, 59 (1), art. no. 5173542, pp. 229-237. Doi: 10.1109/TIM.2009.2023104. Efficient Sensor Signal Filtering for Autonomous Wireless Node

• Dalola, S., Ferrari, V., Guizzetti, M., Marioli, D., Sardini, E., Serpelloni, M., Taroni, A. Autonomous sensor system with power harvesting for telemetric temperature measurements of pipes (2009) IEEE Transactions on Instrumentation and Measurement, 58 (5), pp. 1471-1478. Doi:10.1109/TIM.2009.2012946 Autonomous Sensor System with Power Harvesting for Telemetric Temperature Measurements of Pipes

• Sardini, E., Serpelloni, M. Passive and self-powered autonomous sensors for remote measurements (2009) Sensors, 9 (2), pp. 943-960. Doi: 10.3390/s90200943. Passive and Self-Powered Autonomous Sensors for Remote Measurements

• Baù, M., Ferrari, V., Marioli, D., Sardini, E., Serpelloni, M., Taroni, A. Contactless electromagnetic excitation of resonant sensors made of conductive miniaturized structures (2008) Sensors and Actuators, A: Physical, 148 (1), pp. 44-50. Doi:10.1016/j.sna.2008.06.034. Contactless Electromagnetic Excitation of Resonant Sensors Made of Conductive Miniaturized Structures

• Marioli, D., Sardini, E., Serpelloni, M. An inductive telemetric measurement system for humidity sensing (2008) Measurement Science and Technology, 19 (11), art. no. 115204, . Doi:10.1088/0957-0233/19/11/115204. An Inductive Telemetric Measurement System for Humidity Sensing

•  Marioli, D., Sardini, E., Serpelloni, M., Taroni, A. Contactless transmission of measurement information between sensor and conditioning electronics (2008) IEEE Transactions on Instrumentation and Measurement, 57 (2), pp. 303-308. Doi:10.1109/TIM.2007.909414. Contactless transmission of Measurement Information Between Sensor Conditioning Electronic

• De Angelis, C., Ferrari, V., Marioli, D., Sardini, E., Serpelloni, M., Taroni, A. Magnetically induced oscillations on a conductive cantilever for resonant microsensors (2007) Sensors and Actuators, A: Physical, 135 (1), pp. 197-202. Doi:10.1016/j.sna.2006.06.049. Magnetically induced oscillation on a conductive cantilever for resonant microsensors

• Marioli, D., Sardini, E., Serpelloni, M., Taroni, A. A new measurement method for capacitance transducers in a distance compensated telemetric sensor system
  (2005) Measurement Science and Technology, 16 (8), pp. 1593-1599. Doi:10.1088/0957-0233/16/8/008. A New Measurement Method for Capacitance Transducers in a Distance Compensated Telemetric Sensor System

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