Nano-copper Enhanced Flexible Device for Simultaneous Measurement of Human Respiratory and Electro-cardiac Activities

Abstract: Background: Dysfunction of human respiratory and electro-cardiac activities could affect the ability of the heart to pump blood and the lungs to inhale oxygen. Thus, a device could simultaneously measure electro-cardiac signal and respiratory pressure could provide vital signs for predicting early warning of cardio-pulmonary function-related chronic diseases such as cardiovascular disease, and respiratory system disease. Results: In this study, a flexible device integrated with piezo-resistive sensing element … Show more

“…To overcome the biocompatibility effects, recent advances in electrode materials have been made, in order to achieve comfortable, flexible and biocompatible electrodes. A wide variety of materials have been employed, such as carbon nanomaterials [1], carbon nanotubes [2], metallic nanoparticles [3], inorganic semiconductors [4], and electroconductive polymers. Conductive polymers are very promising for electrode materials because they are soft, electrically conductive, low cost, easily synthesized, and biocompatible with human tissues [5] [6].…”

Biomimetic Synthesized Conductive Copolymer EDOT-Pyrrole Electrodes for Electrocardiogram Recording in Humans

“…To overcome the biocompatibility effects, recent advances in electrode materials have been made, in order to achieve comfortable, flexible and biocompatible electrodes. A wide variety of materials have been employed, such as carbon nanomaterials [1], carbon nanotubes [2], metallic nanoparticles [3], inorganic semiconductors [4], and electroconductive polymers. Conductive polymers are very promising for electrode materials because they are soft, electrically conductive, low cost, easily synthesized, and biocompatible with human tissues [5] [6].…”

Biomimetic Synthesized Conductive Copolymer EDOT-Pyrrole Electrodes for Electrocardiogram Recording in Humans