Giovanna Di Pasquale

Orcid: 0000-0003-2032-4195

According to our database1, Giovanna Di Pasquale authored at least 31 papers between 2009 and 2024.

Collaborative distances:
  • Dijkstra number2 of five.
  • Erdős number3 of four.

Timeline

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Bibliography

2024
Pullulan-1-Ethyl-3-Methylimidazolium Tetrafluoroborate Composite as a Water-Soluble Active Component of a Vibration Sensor.
Sensors, February, 2024

Dissolvable Piezo-Ionic Pullulan Sensor for Measurements of Applied Deformation.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2024

Characterization and Comparison of Bacterial Cellulose/Choline Malonate/EMIM-BF4 Accelerometers.
Proceedings of the 21st International Multi-Conference on Systems, Signals & Devices, 2024

2023
A Comparative Investigation of Deformation Transducers Based on Bacterial Cellulose and Different Ionic Liquids.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2023

2022
Modeling of a Bacterial Cellulose-based Composite in Bending Configuration.
Proceedings of the IEEE Sensors Applications Symposium, 2022

2021
Green LSPR Sensors Based on Thin Bacterial Cellulose Waveguides for Disposable Biosensor Implementation.
IEEE Trans. Instrum. Meas., 2021

Investigation on the Role of Ionic Liquids in the Output Signal Produced by Bacterial Cellulose-Based Mechanoelectrical Transducers.
Sensors, 2021

Conditioning of Bacterial Cellulose-based Motion Sensors.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2021

Investigation of Bacterial Cellulose-based Fractional Order Element behaviour.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2021

A Green Deformation Sensor Based on Bacterial Cellulose and Bio-Derived Ionic Liquids.
Proceedings of the 18th International Multi-Conference on Systems, Signals & Devices, 2021

2020
Performance Characterization of a Biodegradable Deformation Sensor Based on Bacterial Cellulose.
IEEE Trans. Instrum. Meas., 2020

A Generating All-Polymeric Touching Sensing System.
IEEE Trans. Instrum. Meas., 2020

Green Energy Harvester from Vibrations Based on Bacterial Cellulose.
Sensors, 2020

An LSPR Sensor based on a thin slab waveguide of bacterial cellulose.
Proceedings of the 2020 IEEE International Instrumentation and Measurement Technology Conference, 2020

Green Fractional Order Elements Based on Bacterial Cellulose and Ionic Liquids.
Proceedings of the 2020 IEEE International Instrumentation and Measurement Technology Conference, 2020

A Piezoresistive Bacterial Cellulose- based Sensor for Axial Displacement Measurements.
Proceedings of the 17th International Multi-Conference on Systems, Signals & Devices, 2020

2019
An Eco-Friendly Disposable Plasmonic Sensor Based on Bacterial Cellulose and Gold.
Sensors, 2019

The evolution of ionic polymer metal composites towards greener transducers.
IEEE Instrum. Meas. Mag., 2019

Green Inertial Sensors based on Bacterial Cellulose.
Proceedings of the IEEE Sensors Applications Symposium, 2019

Geometrical Analysis of a Bacterial Cellulose-Based Sensing Element.
Proceedings of the 2nd Workshop on Metrology for Industry 4.0 and IoT MetroInd4.0&IoT 2019, 2019

A Bacterial Cellulose Based Mass Sensor.
Proceedings of the 5th IEEE International Symposium on Measurements & Networking, 2019

"Paper"Based Sensor for Deformation Measurements.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2019

2018
Realization and characterization of carbon black based fractional order element.
Microelectron. J., 2018

Thermal, Mechanical and Electrical Investigation of Elastomer-Carbon Black Nanocomposite Piezoresistivity.
Proceedings of the Sensors, 2018

Low Cost Inkjet Printed Sensors: From Physical to Chemical Sensors.
Proceedings of the Sensors, 2018

2016
Study of an ionic polymer-metal composite based flowmeter.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2016

2014
A Multiphysics Frequency-Dependent Model of an ${\rm IP}^{2}{\rm C}$ Actuator.
IEEE Trans. Instrum. Meas., 2014

IPMC frequency dependent multiphysics model considering electrodes high surface and fractional effects.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2014

2013
ℙ<sup>2</sup>ℂ Sensor Modeling.
IEEE Trans. Instrum. Meas., 2013

A new multi-physics model of an IP2C actuator in the electrical, chemical, mechanical and thermal domains.
Proceedings of the IEEE International Instrumentation and Measurement Technology Conference, 2013

2009
All-Organic Motion Sensors: Electromechanical Modeling.
IEEE Trans. Instrum. Meas., 2009


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