Philipp Schäffner
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View article: Multilayer screen-printed P(VDF-TrFE) energy harvester for durable self-powered tire pressure monitoring in bicycle tube
Multilayer screen-printed P(VDF-TrFE) energy harvester for durable self-powered tire pressure monitoring in bicycle tube Open
In recent decades, energy harvesting in rotating tires has been an active field of research as this could avoid the use of toxic batteries, which are currently used to power pressure monitoring systems installed in millions of cars worldwi…
View article: Study of Pressure Distribution in Floor Tiles with Printed P(VDF:TrFE) Sensors for Smart Surface Applications
Study of Pressure Distribution in Floor Tiles with Printed P(VDF:TrFE) Sensors for Smart Surface Applications Open
Pressure sensors integrated in surfaces, such as the floor, can enable movement, event, and object detection with relatively little effort and without raising privacy concerns, such as video surveillance. Usually, this requires a distribut…
View article: Smart Core‐Shell Nanostructures for Force, Humidity, and Temperature Multi‐Stimuli Responsiveness (Adv. Mater. Technol. 7/2022)
Smart Core‐Shell Nanostructures for Force, Humidity, and Temperature Multi‐Stimuli Responsiveness (Adv. Mater. Technol. 7/2022) Open
Electronic Skins In article number 2200246, Anna Maria Coclite and co-workers present a new multi-stimuli (force, humidity and temperature) responsive electronic skin concept, relying on core-shell nanosensors able to detect with spatial r…
View article: Smart Core‐Shell Nanostructures for Force, Humidity, and Temperature Multi‐Stimuli Responsiveness
Smart Core‐Shell Nanostructures for Force, Humidity, and Temperature Multi‐Stimuli Responsiveness Open
A force, humidity, and temperature‐responsive electronic skin is presented by combining piezoelectric zinc oxide (ZnO) and poly‐N‐vinylcaprolactam‐co‐di(ethylene glycol) divinyl ether hydrogel into core‐shell nanostructures using state‐of‐…
View article: High magnetoelectric coupling of Metglas and P(VDF-TrFE) laminates
High magnetoelectric coupling of Metglas and P(VDF-TrFE) laminates Open
Magnetoelectric (magnetic/piezoelectric) heterostructures bring new functionalities to develop novel transducer devices such as (wireless) sensors or energy harvesters and thus have been attracting research interest in the last years. We h…
View article: High Magnetoelectric Coupling of Metglas and P(VDF-TrFE) Laminates
High Magnetoelectric Coupling of Metglas and P(VDF-TrFE) Laminates Open
Magnetoelectric (magnetic/piezoelectric) heterostructures bring new functionalities to develop novel transducer devices such as (wireless) sensors or energy harvesters and thus have been attracting research interest in the last years. We h…
View article: A Novel Sensor Foil to Measure Ski Deflections: Development and Validation of a Curvature Model
A Novel Sensor Foil to Measure Ski Deflections: Development and Validation of a Curvature Model Open
The ski deflection with the associated temporal and segmental curvature variation can be considered as a performance-relevant factor in alpine skiing. Although some work on recording ski deflection is available, the segmental curvature amo…
View article: Imperceptible Energy Harvesting Device and Biomedical Sensor based on Ultraflexible Ferroelectric Transducers and Organic Diodes
Imperceptible Energy Harvesting Device and Biomedical Sensor based on Ultraflexible Ferroelectric Transducers and Organic Diodes Open
Energy autonomy and conformability are essential elements in the next generation of wearable and flexible electronics for healthcare, robotics and cyber-physical systems. This study presents ferroelectric polymer transducers and organic di…
View article: Piezoelectric Properties of Zinc Oxide Thin Films Grown by Plasma‐Enhanced Atomic Layer Deposition
Piezoelectric Properties of Zinc Oxide Thin Films Grown by Plasma‐Enhanced Atomic Layer Deposition Open
Zinc oxide (ZnO) thin films are deposited by plasma‐enhanced atomic layer deposition (PE‐ALD). This deposition method allows depositing stoichiometric and highly resistive ZnO films at room temperature. Despite such important requirements …