This paper reports on a highly sensitive tactile sensor based on a floating gate organic transistor called Organic Charge Modulated FET coupled with a flexible piezoelectric polymer (namely a film of polyvinylene fluoride, PVDF). The proposed device is able to reliably transduce pressures as low as 300 Pa, thus opening up interesting perspectives for flexible and low-cost tactile sensors for e-skin applications
Tactile sensors plays a very important role in the present world of sensors, especially in the field...
A highly sensitive piezoresistive tactile sensor combined with the thin-film transistors (TFTs) is p...
This paper presents an enhanced piezoelectricity based sensor for touch and temperature sensing. The...
This paper reports on a highly sensitive tactile sensor based on a floating gate organic transistor ...
This paper presents a novel approach for realizing tactile sensors by integrating a piezoelectric po...
In this study, a novel approach to the fabrication of a multimodal temperature and force sensor on u...
Abstract In this manuscript, we report on a novel architecture for the fabrication of highly sensiti...
A novel structure for the fabrication of organic pressure sensors is presented. It is based on a pol...
In this paper, we present an ultraflexible tactile sensor, in a piezo-eletricoxide-semiconductor FET...
The paper focuses on the manufacturing technology of modular components for large-area tactile senso...
This work presents the design and fabrication of novel piezoelectric polymer-FET touch sensing devic...
This work presents the design and fabrication of novel piezoelectric polymer-FET tactile sensing dev...
Abstract Organic TFT-based pressure sensors that mimic the tactile sensing of human skin are promisi...
This work presents novel POSFET (Piezoelectric Oxide Semiconductor Field Effect Transistor) tactile ...
This work presents novel POSFET (Piezoelectric Oxide Semiconductor Field Effect Transistor) tactile ...
Tactile sensors plays a very important role in the present world of sensors, especially in the field...
A highly sensitive piezoresistive tactile sensor combined with the thin-film transistors (TFTs) is p...
This paper presents an enhanced piezoelectricity based sensor for touch and temperature sensing. The...
This paper reports on a highly sensitive tactile sensor based on a floating gate organic transistor ...
This paper presents a novel approach for realizing tactile sensors by integrating a piezoelectric po...
In this study, a novel approach to the fabrication of a multimodal temperature and force sensor on u...
Abstract In this manuscript, we report on a novel architecture for the fabrication of highly sensiti...
A novel structure for the fabrication of organic pressure sensors is presented. It is based on a pol...
In this paper, we present an ultraflexible tactile sensor, in a piezo-eletricoxide-semiconductor FET...
The paper focuses on the manufacturing technology of modular components for large-area tactile senso...
This work presents the design and fabrication of novel piezoelectric polymer-FET touch sensing devic...
This work presents the design and fabrication of novel piezoelectric polymer-FET tactile sensing dev...
Abstract Organic TFT-based pressure sensors that mimic the tactile sensing of human skin are promisi...
This work presents novel POSFET (Piezoelectric Oxide Semiconductor Field Effect Transistor) tactile ...
This work presents novel POSFET (Piezoelectric Oxide Semiconductor Field Effect Transistor) tactile ...
Tactile sensors plays a very important role in the present world of sensors, especially in the field...
A highly sensitive piezoresistive tactile sensor combined with the thin-film transistors (TFTs) is p...
This paper presents an enhanced piezoelectricity based sensor for touch and temperature sensing. The...