45 citations as recorded by crossref.

1. Carbon Nanotube‐Based Piezoresistive Sensors Fabricated by Microwave Irradiation B. Herren et al.
2. Plantar Pressure‐Based Insole Gait Monitoring Techniques for Diseases Monitoring and Analysis: A Review J. Chen et al.
3. 3D Printed Soft and Flexible Insole With Intrinsic Pressure Sensing Capability M. Ntagios & R. Dahiya
4. Working Principle and Performance of a Scalable Gravimetric System for the Monitoring of Access to Public Places T. Addabbo et al.
5. Investigation of electrical properties of hybrid nanocomposites containing different fillers on pressure sensor applications under different loading H. Kasım & B. Demir
6. Comparison of Pressure Sensing Properties of Carbon Nanotubes and Carbon Black Polymer Composites J. Yoo et al.
7. Piezoresistive Elastomer Composites Used for Pressure Sensing S. Naderizadeh et al.
8. Fostering the performance of MWCNT/PDMS-based pressure sensor by incorporating DPLF natural fibres J. Aloulou et al.
9. Homogeneity Characterization of Textile-Integrated Wearable Sensors based on Impedance Spectroscopy H. Nouri et al.
10. Highly sensitive capacitive pressure sensors for robotic applications based on carbon nanotubes and PDMS polymer nanocomposite R. Ramalingame et al.
11. Fabrication of a microcantilever-based aerosol detector with integrated electrostatic on-chip ultrafine particle separation and collection M. Bertke et al.
12. Optimising polyurethane/CNTs piezoresistive pressure sensors by varying the modulus of the polymer matrix S. Naderizadeh et al.
13. Design, Fabrication, and Testing of a Fully 3D-Printed Pressure Sensor Using a Hybrid Printing Approach A. Verma et al.
14. Ultrafast growth of carbon nanotubes using microwave irradiation: characterization and its potential applications P. Baghel et al.
15. Comparison between Piezoelectric and Piezoresistive Wearable Gait Monitoring Techniques Z. Zhang et al.
16. Intelligent Sensing System of the Car Seat With Flexible Piezoresistive Sensor of Double-Layer Conductive Network X. Bai et al.
17. Circuit Techniques to Suppress Crosstalk Due to Circuit Nonidealities in Zero-Potential-Biasing Method for Resistive Sensor Matrix Y. Yoo & B. Choi
18. A review on application of nanomaterials in flexible pressure sensors S. Mohamadzade et al.
19. Calibration of an AC Zero Potential Circuit for Two-Dimensional Impedimetric Sensor Matrices Z. Hu et al.
20. Radial alignment of carbon nanotubes for directional sensing application I. Akhtar & S. Chang
21. Vapor-induced porosity in graphene/PDMS: a scalable route to high-performance pressure sensors N. Beigh & N. Alcheikh
22. Nanotubes: Carbon-Based Fibers and Bacterial Nano-Conduits Both Arousing a Global Interest and Conflicting Opinions S. Alfei & G. Schito
23. A VFM-Based Crosstalk Suppression Circuit With Minimized Control Ports for Large-Scale Piezoresistive Sensor Arrays Using Analog Multiplexers H. Wang et al.
24. Development of a free-form piezo-resistive pressure sensor using advanced printing methods R. Goos et al.
25. Paper-Based Piezoresistive Force Encoder for Soft Robotic Applications O. Akcan et al.
26. A Study of Detection Properties of Piezoresistive CNT/PDMS Devices with Porous Structure W. Lee & S. Lee
27. A wireless, self-powered smart insole for gait monitoring and recognition via nonlinear synergistic pressure sensing Q. Wang et al.
28. An embedded printed flexible strain resistance sensor via micro-structure design on graphene-filled conductive silicon rubber W. Luo et al.
29. Dynamic Interface Pressure Monitoring System for the Morphological Pressure Mapping of Intermittent Pneumatic Compression Therapy S. Zhao et al.
30. Development of a Soft Pneumatic Actuator System Based on Flexible Force Sensor for Lower Limb Compression Therapy S. Zhao et al.
31. Piezoresistive strain sensors based on psyllium-carbon nanostructure skeletons X. Gong et al.
32. Pollen-Shaped Hierarchical Structure for Pressure Sensors with High Sensitivity in an Ultrabroad Linear Response Range T. Zhao et al.
33. Self‐Powered Smart Shoes with Tension‐Type Ribbon Harvesters and Sensors K. Jung et al.
34. Research Progress in Nano Materials and Structural Designs for Flexible Piezoresistive Sensors Y. Kang & J. Lee
35. Self-Calibrated AC Zero Potential Circuit for Two-Dimensional Impedimetric Sensor Matrices Z. Hu et al.
36. Potential of flexible and highly sensitive sensors based on polymer-carbon-nanomaterials composites: towards a new generation of sensors O. Kanoun et al.
37. Review on Conductive Polymer/CNTs Nanocomposites Based Flexible and Stretchable Strain and Pressure Sensors O. Kanoun et al.
38. Nonlinear dynamic behavior of carbon nanotubes incorporating size effects B. Yang & M. Mousavi
39. Flexible Ultra-Thin Nanocomposite Based Piezoresistive Pressure Sensors for Foot Pressure Distribution Measurement D. Rajendran et al.
40. Impedance Spectroscopy: Applications, Advances and Future Trends O. Kanoun et al.
41. Tactile Object Recognition for Humanoid Robots Using New Designed Piezoresistive Tactile Sensor and DCNN S. Pohtongkam & J. Srinonchat
42. Piezoresistive Characteristics of Carbon Nanotube Polymer Composites with Different Filler Content and Aspect Ratio for Pressure Sensors J. Yoo et al.
43. iFEM2.0: Dense 3-D Contact Force Field Reconstruction and Assessment for Vision-Based Tactile Sensors C. Zhao et al.
44. Investigation of Contact Surface Changes and Sensor Response of a Pressure-Sensitive Conductive Elastomer T. Katagiri et al.
45. Application of a Tactile Sensor for the Gait Phase Classification for an Exoskeleton M. Lee et al.