TY - BOOK ID - 145855194 TI - Bioelectric Sensors PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - organic optoelectronic device KW - pulse meter KW - biosensor KW - Bluetooth low energy (BLE) KW - photoplethysmogram (PPG) KW - chronic wounds KW - electrical stimulation KW - direct microcurrent KW - non-invasive KW - pressure ulcer KW - wireless technology KW - biochips KW - impedance spectroscopy KW - electrical equivalent circuit KW - biomaterial KW - Lysinibacillus sphaericus JG-A12 KW - anticancer therapeutic strategies KW - apoptosis KW - bioelectric KW - 5-fluorouracil KW - HeLa cell line KW - superoxide KW - cell immobilization KW - 3D-printed well KW - bioelectric profiling KW - impedance analysis KW - real-time measurements KW - electrochemical biosensors KW - SWCNT KW - point-of-care diagnostics KW - label-free biosensors KW - ELISA KW - carbon nanotubes KW - bovine serum albumin KW - pacemaker KW - threat modeling KW - internet of things (IoT) medical devices KW - vulnerabilities KW - organic optoelectronic device KW - pulse meter KW - biosensor KW - Bluetooth low energy (BLE) KW - photoplethysmogram (PPG) KW - chronic wounds KW - electrical stimulation KW - direct microcurrent KW - non-invasive KW - pressure ulcer KW - wireless technology KW - biochips KW - impedance spectroscopy KW - electrical equivalent circuit KW - biomaterial KW - Lysinibacillus sphaericus JG-A12 KW - anticancer therapeutic strategies KW - apoptosis KW - bioelectric KW - 5-fluorouracil KW - HeLa cell line KW - superoxide KW - cell immobilization KW - 3D-printed well KW - bioelectric profiling KW - impedance analysis KW - real-time measurements KW - electrochemical biosensors KW - SWCNT KW - point-of-care diagnostics KW - label-free biosensors KW - ELISA KW - carbon nanotubes KW - bovine serum albumin KW - pacemaker KW - threat modeling KW - internet of things (IoT) medical devices KW - vulnerabilities UR - https://www.unicat.be/uniCat?func=search&query=sysid:145855194 AB - Bioelectric sensors are unique diagnostic principles and technologies. Although they share many traits with electrochemical sensors, especially regarding the common features of instrumentation, they are focused on the measurement of the electric properties of biorecognition elements as a reflection of cellular, biological, and biomolecular functions in a rapid, very sensitive, and often non-invasive manner. Bioelectric sensors offer a plethora of options in terms both of assay targets (molecules, cells, organs, and organisms) and methodological approaches (e.g., potentiometry, impedance spectrometry, and patch-clamp electrophysiology). Irrespective of the method of choice, “bioelectric profiling” is being rapidly established as a superior concept for a number of applications, including in vitro toxicity, signal transduction, real-time medical diagnostics, environmental risk assessment, and drug development. This Special Issue is the first that is exclusively dedicated to the advanced and emerging concepts and technologies of bioelectric sensors. Topics include, but are not restricted to, bioelectric sensors for single cell analysis, electrophysiological olfactory and volatile organic compounds sensors, impedimetric biosensors, microbial fuel cell biosensors, and implantable autonomous bioelectric micro- and nano-sensors. ER -