Search results for " bioelectronics"

showing 4 items of 4 documents

Extracellular electrical recording of pH-triggered bursts in C6 glioma cell populations

2016

Extracellular electrode recording demonstrates acid-triggered electrical activity in glioma cell populations.

0301 basic medicinegliaAcid-sensing ion channelsbioelectronicsBiologySodium Channels03 medical and health sciencesBurstingchemistry.chemical_compound0302 clinical medicineCell Line TumorGliomaASICsPsalmotoxinmedicineExtracellularAnimalsHumansneoplasmsResearch ArticlesAcid-sensing ion channelIon channelLow frequency current noiseNeuronsBioelectronicsMultidisciplinarySodium channelSciAdv r-articlesGliomaHydrogen-Ion Concentrationmedicine.diseaseC6 Gliomanervous system diseasesElectrophysiological PhenomenaRatsPcTX-1030104 developmental biologychemistryCell cultureBiophysicsASICs; Acid-sensing ion channels; C6 Glioma; Electrical recording; Low frequency current noise; PcTX-1; bioelectronics; gliaNerve Net030217 neurology & neurosurgeryResearch ArticleElectrical recordingScience Advances
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On the Interaction between 1D Materials and Living Cells

2020

One-dimensional (1D) materials allow for cutting-edge applications in biology, such as single-cell bioelectronics investigations, stimulation of the cellular membrane or the cytosol, cellular capture, tissue regeneration, antibacterial action, traction force investigation, and cellular lysis among others. The extraordinary development of this research field in the last ten years has been promoted by the possibility to engineer new classes of biointerfaces that integrate 1D materials as tools to trigger reconfigurable stimuli/probes at the sub-cellular resolution, mimicking the in vivo protein fibres organization of the extracellular matrix. After a brief overview of the theoretical models r…

Cellular membraneMaterials sciencelcsh:BiotechnologyBiomedical EngineeringTheoretical modelsregenerative medicineNanotechnologyBiointerface02 engineering and technologyReviewbioelectronics010402 general chemistry01 natural sciencesRegenerative medicineBiomaterials1D materialsbiointerfacelcsh:TP248.13-248.651D materials CNTs bioelectronics biointerface photocatalysis polymers regenerative medicineMicroscale chemistrypolymerslcsh:R5-920BioelectronicsCNTs021001 nanoscience & nanotechnology0104 chemical sciencesProtein fibreslcsh:Medicine (General)0210 nano-technologyphotocatalysisMaterial chemistryJournal of Functional Biomaterials
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Current-Driven Organic Electrochemical Transistors for Monitoring Cell Layer Integrity with Enhanced Sensitivity

2021

In this progress report an overview is given on the use of the organic electrochemical transistor (OECT) as a biosensor for impedance sensing of cell layers. The transient OECT current can be used to detect changes in the impedance of the cell layer, as shown by Jimison et al. To circumvent the application of a high gate bias and preventing electrolysis of the electrolyte, in case of small impedance variations, an alternative measuring technique based on an OECT in a current-driven configuration is developed. The ion-sensitivity is larger than 1200 mV V-1 dec-1 at low operating voltage. It can be even further enhanced using an OECT based complementary amplifier, which consists of a p-type a…

Materials scienceTransistors ElectronicBiomedical EngineeringPharmaceutical ScienceElectrolyteBiosensing TechniquesTransistorslaw.inventionBiomaterialsElectrolytesPEDOT:PSSimpedance sensinglawcell layer integrityElectric ImpedanceElectronicPEDOT:PSSHumansElectrical impedanceorganic bioelectronicsElectrolysisbusiness.industryAmplifierTransistorcell layer integrity; impedance sensing; organic bioelectronics; organic electro-chemical transistors; PEDOT:PSS; Caco-2 Cells; Electric Impedance; Electrolytes; Humans; Biosensing Techniques; Transistors ElectronicOptoelectronicsCaco-2 Cellsbusinessorganic electro-chemical transistorsBiosensorOrganic electrochemical transistor
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From Microorganism-Based Amperometric Biosensors towards Microbial Fuel Cells

2021

This review focuses on the overview of microbial amperometric biosensors and microbial biofuel cells (MFC) and shows how very similar principles are applied for the design of both types of these bioelectronics-based devices. Most microorganism-based amperometric biosensors show poor specificity, but this drawback can be exploited in the design of microbial biofuel cells because this enables them to consume wider range of chemical fuels. The efficiency of the charge transfer is among the most challenging and critical issues during the development of any kind of biofuel cell. In most cases, particular redox mediators and nanomaterials are applied for the facilitation of charge transfer from a…

Microbial fuel cellBioelectric Energy SourcesPolymersMicroorganismNanotechnologyBiosensing TechniquesReview02 engineering and technologyyeastbioelectronicslcsh:Chemical technology010402 general chemistry01 natural sciencesBiochemistryRedoxAnalytical ChemistryNanomaterialsmicrobial biosensorslcsh:TP1-1185microbial biofuel cells ; yeast ; direct electron transfer ; extracellular electron transfer ; cell membrane/wall modifications ; conducting polymers ; enzyme-based biofuel cells ; bioelectronics ; microbial biosensors ; whole cell-based biosensorsdirect electron transferenzyme-based biofuel cellsElectrical and Electronic EngineeringElectrodesconducting polymersInstrumentationwhole cell-based biosensorsConductive polymerBioelectronicsextracellular electron transferChemistryfungitechnology industry and agriculturefood and beveragesmicrobial biofuel cells021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencescell membrane/wall modificationsBiofuel0210 nano-technologyOxidation-ReductionBiosensorSensors
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