Articles

2026

Polidori, G.; Sardini, E.; Serpelloni, M. Aerosol Jet Printed Ion-Selective Electrodes for Potassium Detection. Sensors 2026, 26, 3053. https://doi.org/10.3390/s26103053 https://mauro-serpelloni.unibs.it/wp-content/uploads/Aerosol-Jet-Printed-Ion-Selective-Electrodes-for-Potassium-Detection.pdf

Marcotto G.S., Borghetti M., Bitraj J., Cavalleri L., Serpelloni M., Zoli M., Memo M., Sardini E., Collo G. Single transient exposure to low-frequency low-intensity electrical stimulation produces ketamine-like effects in human iPSC-derived dopaminergic neurons via Ca2+-dependent BDNF and mTOR signaling (2026) Neuropharmacology, 293, art. no. 110964,  DOI: 10.1016/j.neuropharm.2026.110964 https://mauro-serpelloni.unibs.it/wp-content/uploads/Single-transient-exposure-to-low-frequency-low-intensity-electrical-stimulation-produces-ketamine-like-effects-in-human-iPSC-derived-dopaminergic-neurons-via-Ca2-dependent-BDNF-and-mTOR-signaling.pdf

Borghetti M., Sardini E., Serpelloni M. Voltage-based balancing technique for half printed Wheatstone bridges (2026) Measurement: Journal of the International Measurement Confederation, 260, art. no. 119809, DOI: 10.1016/j.measurement.2025.119809 https://mauro-serpelloni.unibs.it/wp-content/uploads/Voltage-based-balancing-technique-for-half-printed-Wheatstone-bridges.pdf

2025

Crescini D., Mascialino G., Moggia N., Piubeni G., Serpelloni M., Sardini E. PCA- and PLSR-Based Machine Learning Model for Prediction of Urea-N Content in Heterogeneous Soils Using Near-Infrared Spectroscopy (2025) Sensors, 25 (13), art. no. 4176, DOI: 10.3390/s25134176 https://mauro-serpelloni.unibs.it/wp-content/uploads/PCA-and-PLSR-Based-Machine-Learning-Model-for-Prediction-of-Urea-N-Content-in-Heterogeneous-Soils-Using-Near-Infrared-Spectroscopy.pdf

Brunacci V., Capriglione D., Carissimo C., Crescini D., Milano F., Moggia N., Moschitta A., Polidori G., Provenzale C., Santoni F., Sardini E., Serpelloni M. A survey on inline soil pollution measurement and mapping technologies (2025) Measurement: Journal of the International Measurement Confederation, 254, art. no. 117655, DOI: 10.1016/j.measurement.2025.117655 https://mauro-serpelloni.unibs.it/wp-content/uploads/A-survey-on-inline-soil-pollution-measurement-and-mapping-technologies.pdf

Santona G., Fiorentino A., Doglietto F., Serpelloni M. Design and experimental characterization of a small flexible TMR-based indentation probe for soft tissue hardness estimation (2025) Measurement Science and Technology, 36 (7), art. no. 075701, DOI: 10.1088/1361-6501/adeacb https://mauro-serpelloni.unibs.it/wp-content/uploads/Design-and-experimental-characterization-of-a-small-flexible-TMR-based-indentation-probe-for-soft-tissue-hardness-estimation.pdf

Santona G., Fiorentino A., Doglietto F., Serpelloni M. Procedure for Reconstruction, Modeling, and Fabrication Using Additive and Rapid Tooling Methods of a Training Model for Transsphenoidal Surgery (2025) Journal of Manufacturing and Materials Processing, 9 (2), art. no. 63, DOI: 10.3390/jmmp9020063 https://mauro-serpelloni.unibs.it/wp-content/uploads/Procedure-for-Reconstruction-Modeling-and-Fabrication-Using-Additive-and-Rapid-Tooling-Methods-of-a-Training-Model-for-Transsphenoidal-Surgery.pdf

Borghetti M., Casas O., Sardini E., Serpelloni M. Novel Method for Balancing Full Wheatstone Bridge for High-Tolerance Resistive Sensors (2025) IEEE Transactions on Instrumentation and Measurement, 74, art. no. 9528410, DOI: 10.1109/TIM.2025.3586341 https://mauro-serpelloni.unibs.it/wp-content/uploads/Novel-Method-for-Balancing-Full-Wheatstone-Bridge-for-High-Tolerance-Resistive-Sensors.pdf

Santona G., Fiorentino A., Doglietto F., Serpelloni M. 3D printed training model with sensorized arachnoid for endoscopic transsphenoidal surgery: development and initial validation (2025) Heliyon, 11 (10), art. no. e43380, DOI: 10.1016/j.heliyon.2025.e43380 https://mauro-serpelloni.unibs.it/wp-content/uploads/3D-printed-training-model-with-sensorized-arachnoid-for-endoscopic-transsphenoidal-surgery-development-and-initial-validation.pdf

Carvalho R., Amorim L., Ribeiro C., Lanceros-Mendez S., Serpelloni M., Polidori G., Martins P. Revisiting De Magnete: Printed routes for tunable magnetoelectricity in energy-efficient devices (2025) Chemical Engineering Journal, 523, art. no. 166453, DOI: 10.1016/j.cej.2025.166453 https://mauro-serpelloni.unibs.it/wp-content/uploads/Revisiting-De-Magnete-Printed-routes-for-tunable-magnetoelectricity-in-energy-efficient-devices.pdf

Borghetti M., Lopomo N.F., Serpelloni M. Novel Smart Glove for Ride Monitoring in Light Mobility (2025) Instruments, 9 (1), art. no. 6, DOI: 10.3390/instruments9010006 https://mauro-serpelloni.unibs.it/wp-content/uploads/Novel-Smart-Glove-for-Ride-Monitoring-in-Light-Mobility.pdf

2024

Petralia S., Castorina S., Maugeri L., Messina M.A., Ruggieri M., Neri G., Ferlazzo A., Sardini E., Serpelloni M., Bellitti P., Ando B. A Phenylalanine Sensor Exploiting a Capacitive Readout Strategy Embedding a Selective Enzymatic Mechanism (2024) IEEE Sensors Journal, 24 (20), pp. 31741 – 31753 DOI: 10.1109/JSEN.2024.3439825 https://mauro-serpelloni.unibs.it/wp-content/uploads/A_Phenylalanine_Sensor_Exploiting_a_Capacitive_Readout_Strategy_Embedding_a_Selective_Enzymatic_Mechanism.pdf

Tiziano F., Mauro S. Substrate and Coating Effects on Temperature-Related Behavior of Silver Traces Printed by Aerosol Jet for Aerospace Applications (2024) IEEE Transactions on Instrumentation and Measurement, 73, art. no. 6010308 DOI: 10.1109/TIM.2024.3476607 https://mauro-serpelloni.unibs.it/wp-content/uploads/Substrate_and_Coating_Effects_on_Temperature-Related_Behavior_of_Silver_Traces_Printed_by_Aerosol_Jet_for_Aerospace_Applications.pdf

Polidori G., Tonello S., Serpelloni M. Ion-Selective All-Solid-State Printed Sensors: A Systematic Review (2024) IEEE Sensors Journal, 24 (6), pp. 7375 – 7394 DOI: 10.1109/JSEN.2024.3354321 https://mauro-serpelloni.unibs.it/wp-content/uploads/Ion-Selective_All-Solid-State_Printed_Sensors_A_Systematic_Review.pdf

Borghetti M., Nicolosi V., Sardini E., Serpelloni M., Spurling D. Optimization of Piezo-Driven Jet Valve Dispensing Process for the Geometrical Control of Printed Sensors Based on Silver and MXene Inks (2024) IEEE Transactions on Instrumentation and Measurement, 73, art. no. 9500211, pp. 1 – 11 DOI: 10.1109/TIM.2023.3331397 https://mauro-serpelloni.unibs.it/wp-content/uploads/Optimization_of_Piezo-Driven_Jet_Valve_Dispensing_Process_for_the_Geometrical_Control_of_Printed_Sensors_Based_on_Silver_and_MXene_Inks.pdf

Filippi F., Fiori G., Genovesi A., Barletta M., Lancini M., Serpelloni M., Scorza A., Sciuto S.A. Preliminary Characterization of a Novel Aerosol Jet-Printed Strain Sensor for Feasibility Assessment in a Variable Stiffness Arterial Simulator Application (2024) Sensors, 24 (23), art. no. 7725 DOI: 10.3390/s24237725 https://mauro-serpelloni.unibs.it/wp-content/uploads/Preliminary-Characterization-of-a-Novel-Aerosol-Jet-Printed-Strain-Sensor-for-Feasibility-Assessment-in-a-Variable-Stiffness-Arterial-Simulator-Application.pdf

Musaev E., Cantu E., Soprani M., Serpelloni M., Sardini E., Ponzoni A., De Angelis C., Baratto C. Paper Sensors for Advanced Smart Packaging: Route to Detection on the Shelf and in Real Ambient (2024) IEEE Sensors Journal, 24 (20), pp. 31598 – 31605 DOI: 10.1109/JSEN.2024.3401248 https://mauro-serpelloni.unibs.it/wp-content/uploads/Paper_Sensors_for_Advanced_Smart_Packaging_Route_to_Detection_on_the_Shelf_and_in_Real_Ambient.pdf

2023

Armando I., Borghetti M., Sardini E., Serpelloni M. A Feasibility Study of Customized and Fully Aerosol-Jet-Printed Micro-Electrode Arrays for In Vitro Application (2023) IEEE Sensors Journal, 23 (20), pp. 24205 – 24213 DOI: 10.1109/JSEN.2023.3313652 https://mauro-serpelloni.unibs.it/wp-content/uploads/A_Feasibility_Study_of_Customized_and_Fully_Aerosol-Jet-Printed_Micro-Electrode_Arrays_for_In_Vitro_Application.pdf

Santona G., Madoglio A., Mattavelli D., Rigante M., Ferrari M., Lauretti L., Mattogno P., Parrilla C., De Bonis P., Galli J., Olivi A., Fontanella M.M., Fiorentino A., Serpelloni M., Doglietto F. Training models and simulators for endoscopic transsphenoidal surgery: a systematic review (2023) Neurosurgical Review, 46 (1), art. no. 248 DOI: 10.1007/s10143-023-02149-3 https://mauro-serpelloni.unibs.it/wp-content/uploads/Training-models-and-simulators-for-endoscopic-transsphenoidal-surgery-a-systematic-review.pdf

Fapanni T., Elbidweihy H., Zappa D., Comini E., Sardini E., Serpelloni M. Evaluation of the Curing Process Effects on the TCR of Temperature Sensors Printed by Aerosol Jet Printing (2023) IEEE Sensors Journal, 23 (15), pp. 16625 – 16632 DOI: 10.1109/JSEN.2023.3283797 https://mauro-serpelloni.unibs.it/wp-content/uploads/Evaluation_of_the_Curing_Process_Effects_on_the_TCR_of_Temperature_Sensors_Printed_by_Aerosol_Jet_Printing.pdf

Caporaso T., Bellitti P., Grazioso S., Serpelloni M., Sardini E., Lanzotti A. Concept Generation and Preliminary Prototyping of a Tailored Smart Glove with Capacitive Pressure Sensors for Force Grip Analysis in Cycling (2023) Computer-Aided Design and Applications, 20 (S6), pp. 87 – 98, DOI: 10.14733/cadaps.2023.S6.87-98 https://mauro-serpelloni.unibs.it/wp-content/uploads/Concept-Generation-and-Preliminary-Prototyping-of-a-Tailored-Smart-Glove-with-Capacitive-Pressure-Sensors-for-Force-Grip-Analysis-in-Cycling.pdf

Tonello S., Fapanni T., Bonaldo S., Giorgi G., Narduzzi C., Paccagnella A., Serpelloni M., Sardini E., Carrara S. Amperometric Measurements by a Novel Aerosol Jet Printed Flexible Sensor for Wearable Applications (2023) IEEE Transactions on Instrumentation and Measurement, 72, art. no. 7500512, DOI: 10.1109/TIM.2022.3225014 https://mauro-serpelloni.unibs.it/wp-content/uploads/Amperometric_Measurements_by_a_Novel_Aerosol_Jet_Printed_Flexible_Sensor_for_Wearable_Applications.pdf

2022

Fapanni T., Sardini E., Serpelloni M., Tonello S. Nano-Functionalized Electrochemical Sensors by Aerosol Jet Printing (2022) IEEE Sensors Journal, 22 (22), pp. 21498 – 21507 DOI: 10.1109/JSEN.2022.3213349 https://mauro-serpelloni.unibs.it/wp-content/uploads/Nano-Functionalized_Electrochemical_Sensors_by_Aerosol_Jet_Printing.pdf

Borghetti M., Cantu E., Ponzoni A., Sardini E., Serpelloni M. Aerosol Jet Printed and Photonic Cured Paper-Based Ammonia Sensor for Food Smart Packaging (2022) IEEE Transactions on Instrumentation and Measurement, 71, art. no. 9504810 DOI: 10.1109/TIM.2022.3161695 https://mauro-serpelloni.unibs.it/wp-content/uploads/Aerosol_Jet_Printed_and_Photonic_Cured_Paper-Based_Ammonia_Sensor_for_Food_Smart_Packaging.pdf

Bellitti P., Borghetti M., Cantu E., Sardini E., Serpelloni M. Resistive Sensors for Smart Objects: Analysis on Printing Techniques (2022) IEEE Transactions on Instrumentation and Measurement, 71, art. no. 9507715 DOI: 10.1109/TIM.2022.3181941 https://mauro-serpelloni.unibs.it/wp-content/uploads/Resistive_Sensors_for_Smart_Objects_Analysis_on_Printing_Techniques.pdf

Bellitti P., Borghetti M., Lopomo N.F., Sardini E., Serpelloni M. Smart Brace for Static and Dynamic Knee Laxity Measurement (2022) Sensors, 22 (15), art. no. 5815 DOI: 10.3390/s22155815 https://mauro-serpelloni.unibs.it/wp-content/uploads/Smart-Brace-for-Static-and-Dynamic-Knee-Laxity-Measurement.pdf

Tonello S., Abate G., Borghetti M., Lopomo N.F., Serpelloni M., Sardini E. How to Assess the Measurement Performance of Mobile/Wearable Point-of-Care Testing Devices? A Systematic Review Addressing Sweat Analysis (2022) Electronics (Switzerland), 11 (5), art. no. 761 DOI: 10.3390/electronics11050761 https://mauro-serpelloni.unibs.it/wp-content/uploads/How-to-Assess-the-Measurement-Performance-of-MobileWearable-Point-of-Care-Testing-Devices-A-Systematic-Review-Addressing-Sweat-Analysis.pdf

2021

Cantu E., Fapanni T., Giorgi G., Narduzzi C., Sardini E., Serpelloni M., Tonello S. Printed Multi-EMG Electrodes on the 3D Surface of an Orthosis for Rehabilitation: A Feasibility Study (2021) IEEE Sensors Journal, 21 (13), art. no. 9354168, pp. 14407 – 14417, DOI: 10.1109/JSEN.2021.3059308 https://mauro-serpelloni.unibs.it/wp-content/uploads/Printed_Multi-EMG_Electrodes_on_the_3D_Surface_of_an_Orthosis_for_Rehabilitation_A_Feasibility_Study.pdf

Bodini A., Borghetti M., Paganelli C., Sardini E., Serpelloni M. Low-Power Wireless System to Monitor Tongue Strength against the Palate (2021) IEEE Sensors Journal, 21 (4), art. no. 9249007, pp. 5467 – 5475, DOI: 10.1109/JSEN.2020.3036137 https://mauro-serpelloni.unibs.it/wp-content/uploads/Low-Power_Wireless_System_to_Monitor_Tongue_Strength_Against_the_Palate.pdf

Ferrigno L., Laracca M., Milano F., Cerro G., Bellitti P., Serpelloni M., Piedrafita O.C. Magnetic Localization System for Short-Range Positioning: A Ready-to-Use Design Tool (2021) IEEE Transactions on Instrumentation and Measurement, 70, art. no. 9247085, DOI: 10.1109/TIM.2020.3035397 https://mauro-serpelloni.unibs.it/wp-content/uploads/Magnetic_Localization_System_for_Short-Range_Positioning_A_Ready-to-Use_Design_Tool.pdf

Borghetti M., Serpelloni M., Sardini E., Spurling D., Nicolosi V. Temperature influence on Ti3C2Tx lines printed by aerosol jet printing (2021) Sensors and Actuators A: Physical, 332, art. no. 113185, DOI: 10.1016/j.sna.2021.113185 https://mauro-serpelloni.unibs.it/wp-content/uploads/Temperature-influence-on-Ti3C2Tx-lines-printed-by-aerosol-jet-printing.pdf

Fapanni T., Sardini E., Serpelloni M., Tonello S. 3d electrochemical sensor and microstructuration using aerosol jet printing (2021) Sensors, 21 (23), art. no. 7820, DOI: 10.3390/s21237820 https://mauro-serpelloni.unibs.it/wp-content/uploads/3d-electrochemical-sensor-and-microstructuration-using-aerosol-jet-printing.pdf

Rinalduzzi M., De Angelis A., Santoni F., Buchicchio E., Moschitta A., Carbone P., Bellitti P., Serpelloni M. Gesture recognition of sign language alphabet using a magnetic positioning system (2021) Applied Sciences (Switzerland), 11 (12), art. no. 5594,  DOI: 10.3390/app11125594 https://mauro-serpelloni.unibs.it/wp-content/uploads/Gesture-recognition-of-sign-language-alphabet-using-a-magnetic-positioning-system.pdf

2020

Borghetti M., Cantù E., Sardini E., Serpelloni M. Future sensors for smart objects by printing technologies in Industry 4.0 scenario (2020) Energies, 13 (22), art. no. 5916. DOI: 10.3390/en13225916 https://mauro-serpelloni.unibs.it/wp-content/uploads/Future-sensors-for-smart-objects-by-printing-technologies-in-Industry-4.0-scenario.pdf

Sardini E., Serpelloni M., Tonello S. Printed electrochemical biosensors: Opportunities and metrological challenges (2020) Biosensors, 10 (11), art. no. 0166. DOI: 10.3390/bios10110166 https://mauro-serpelloni.unibs.it/wp-content/uploads/Printed-electrochemical-biosensors-Opportunities-and-metrological-challenges.pdf

Borghetti M., Bellitti P., Lopomo N.F., Serpelloni M., Sardini E. Validation of a modular and wearable system for tracking fingers movements (2020) Acta IMEKO, 9 (4), pp. 157 – 164. DOI: 10.21014/acta_imeko.v9i4.752 https://mauro-serpelloni.unibs.it/wp-content/uploads/Validation-of-a-modular-and-wearable-system-for-tracking-fingers-movements.pdf

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

aerosol jet and Photonic curing
aerosol jet and Photonic curing

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

Mechanical behavior of strain sensors based on PEDOT:PSS and silver nanoparticles inks deposited on polymer substrate by inkjet printing
Mechanical behavior of strain sensors based on PEDOT:PSS and silver nanoparticles inks deposited on polymer substrate by inkjet printing
Wireless instrumented crutches
Wireless instrumented crutches
Wireless wearable t-shirt for posture monitoring
Wireless wearable t-shirt for posture monitoring
human energy harvester from knee motions - sensors
human energy harvester from knee motions
sensorized glove - sensors
sensorized glove

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