2025
Processes and measurements: a framework for understanding neural oscillations in field potentials
van Bree S, Levenstein D, Krause M, Voytek B, Gao R. Processes and measurements: a framework for understanding neural oscillations in field potentials. Trends In Cognitive Sciences 2025, 29: 448-466. PMID: 39753446, DOI: 10.1016/j.tics.2024.12.003.Peer-Reviewed Original Research
2024
Intensifying electrified flow-through water treatment technologies via local environment modification
Huo Z, Wang X, Huang X, Elimelech M. Intensifying electrified flow-through water treatment technologies via local environment modification. Frontiers Of Environmental Science & Engineering 2024, 18: 69. DOI: 10.1007/s11783-024-1829-y.Peer-Reviewed Original ResearchFlow-through electrodeFlow-through technologyEnhanced local electric fieldEfficient contaminant removalWater treatment applicationsComplex water matricesLocal electric fieldInduced spatial confinementNear-complete removalReaction kineticsTreatment technologiesMass transportContaminant removalWater treatmentWater matricesPersistent contaminantsGeometry adjustmentModification approachReaction rateElectric fieldStructural optimizationTreatment applicationsElectrodeEnvironment modificationSpatial confinement
2020
An electroosmotic flow-free two-direction migration strategy enables fast affinity capillary electrophoresis to study the weak interactions between basic peptides and RNA
Yuan Z, Xu P, Yu F, Zhang D, Zhao Q, Yu W, Wang H. An electroosmotic flow-free two-direction migration strategy enables fast affinity capillary electrophoresis to study the weak interactions between basic peptides and RNA. Analytical Methods 2020, 12: 5833-5838. PMID: 33227112, DOI: 10.1039/d0ay01515f.Peer-Reviewed Original ResearchConceptsAffinity capillary electrophoresisCapillary electrophoresisWeak interactionsAffinity capillary electrophoresis methodHistone peptidesStudy noncovalent interactionsPeptide-RNA interactionsBinding complexPeptide-RNA complexesNoncovalent interactionsU2 RNACE migrationNeutral capillaryMethylation stateFast dissociationFree probeMigration strategyElectroosmotic flowRNAElectrophoresisMigration distancePeptideCE approachComplexElectric fieldElectric field stimulates production of highly conductive microbial OmcZ nanowires
Yalcin SE, O’Brien J, Gu Y, Reiss K, Yi SM, Jain R, Srikanth V, Dahl PJ, Huynh W, Vu D, Acharya A, Chaudhuri S, Varga T, Batista VS, Malvankar NS. Electric field stimulates production of highly conductive microbial OmcZ nanowires. Nature Chemical Biology 2020, 16: 1136-1142. PMID: 32807967, PMCID: PMC7502555, DOI: 10.1038/s41589-020-0623-9.Peer-Reviewed Original ResearchConceptsConductive protein nanowiresIndividual nanowiresProtein nanowiresElectronic functionalityNanowiresElectric fieldGeobacter sulfurreducens biofilmsHigh conductivityMost natural materialsHigh stiffnessElectrical signalsBidirectional interfaceElectronic systemsLiving materialsNatural materialsΠ stackingSpectroscopic studiesEnergy productionNanospectroscopyConductivityStiffnessConformational switchingΒ-sheetHeme groupSensing
2018
Control of Spreading Depression with Electrical Fields
Whalen A, Xiao Y, Kadji H, Dahlem M, Gluckman B, Schiff S. Control of Spreading Depression with Electrical Fields. Scientific Reports 2018, 8: 8769. PMID: 29884896, PMCID: PMC5993812, DOI: 10.1038/s41598-018-26986-1.Peer-Reviewed Original ResearchConceptsElectric fieldField polarityDC electric fieldElectric field polarityElectrical controlOptical imagingPropagation pathIntrinsic optical imagingOpposite signDepression propagatesElectrical fieldField terminationElectro-chemical gradientPropagation velocityPropagatesFieldTraumatic brain injuryPropagationConfinementMore superficial layersDepression propagationBrain injurySynaptic transmissionBrain slicesWaves
2017
Effects of aligned α‐helix peptide dipoles on experimental electrostatic potentials
Wang J, Videla PE, Batista VS. Effects of aligned α‐helix peptide dipoles on experimental electrostatic potentials. Protein Science 2017, 26: 1692-1697. PMID: 28556371, PMCID: PMC5563131, DOI: 10.1002/pro.3204.Peer-Reviewed Original ResearchConceptsElectrostatic potentialEM mapsProtein αExperimental electrostatic potentialHelix dipoleDetailed molecular levelHigh-resolution electron microscopyDensity functional theory calculationsProtein functionStructural biologyFunctional theory calculationsElectron microscopyProtein α-helixPartial atomic chargesElectric fieldΑ-helixLong-range featuresMolecular levelNonlocal natureAtomic chargesTheory calculationsDipoleBackbone dipolesRecent breakthroughsProper calculation
2016
Optimization of Metglas 2605SA1 and PZT-5A Magnetoelectric Laminates for Magnetic Sensing Applications
Freeman E, Harper J, Goel N, Schiff S, Tadigadapa S. Optimization of Metglas 2605SA1 and PZT-5A Magnetoelectric Laminates for Magnetic Sensing Applications. 2010 IEEE Sensors 2016, 2016: 1-3. PMID: 30906488, PMCID: PMC6424960, DOI: 10.1109/icsens.2016.7808845.Peer-Reviewed Original ResearchResidual stress reductionDC electric field biasMagnetoelectric voltage coefficientMechanical couplingDC electric fieldElectric field biasMagnetic sensing applicationsMagnetic field sensitivityPZT-5AOe magnetic fieldResidual stressMagnetoelectric laminateEasy axis alignmentVoltage coefficientKV/C annealElectric fieldMetglasSensing applicationsField biasLaminatesField sensitivityMagnetic domainsMagnetic fieldPiezoelectric
2015
Picosecond and Terahertz Perturbation of Interfacial Water and Electropermeabilization of Biological Membranes
Vernier PT, Levine ZA, Ho MC, Xiao S, Semenov I, Pakhomov AG. Picosecond and Terahertz Perturbation of Interfacial Water and Electropermeabilization of Biological Membranes. The Journal Of Membrane Biology 2015, 248: 837-847. PMID: 25796485, PMCID: PMC4565733, DOI: 10.1007/s00232-015-9788-7.Peer-Reviewed Original ResearchConceptsSubnanosecond Electric PulsesTerahertz electromagnetic radiationComplementary molecular dynamics simulationsTerahertz frequenciesElectromagnetic radiationField reversalElectric pulsesElectric fieldInterfacial waterElectropore formationMolecular dynamics simulationsPulsesElectric potentialConductive structuresWater dipolesDynamics simulationsPhospholipid bilayersBilayersPicosecondsRemote monitoringBiological membranesModel membranesFieldPSRadiation
2012
Piezoelectric Substrates Promote Neurite Growth in Rat Spinal Cord Neurons
Royo-Gascon N, Wininger M, Scheinbeim JI, Firestein BL, Craelius W. Piezoelectric Substrates Promote Neurite Growth in Rat Spinal Cord Neurons. Annals Of Biomedical Engineering 2012, 41: 112-122. PMID: 22864823, DOI: 10.1007/s10439-012-0628-y.Peer-Reviewed Original Research
2009
Time dependence of stimulation/recording-artifact transfer function estimates for neural interface systems
Chernyy N, Schiff S, Gluckman B. Time dependence of stimulation/recording-artifact transfer function estimates for neural interface systems. Annual International Conference Of The IEEE Engineering In Medicine And Biology Society (EMBC) 2009, 2009: 1380-1383. PMID: 19964759, PMCID: PMC5502111, DOI: 10.1109/iembs.2009.5334297.Peer-Reviewed Original ResearchConceptsControl systemElectrode interface propertiesLow-frequency electric fieldNeural interface systemInterface propertiesControl outputElectric fieldElectrical potential variationsElectrical currentTransfer function magnitudeImpedance changesSystem stateMeasurement pointsInterface systemFunction magnitudeNeural control systemSimultaneous measurementTime dependencePotential variationPropertiesStimulus artifactTransfer function estimatesSystemFilterCurrent
2008
Multi-taper transfer function estimation for stimulation artifact removal from neural recordings
Chernyy N, Schiff S, Gluckman B. Multi-taper transfer function estimation for stimulation artifact removal from neural recordings. Annual International Conference Of The IEEE Engineering In Medicine And Biology Society (EMBC) 2008, 2008: 2772-2776. PMID: 19163280, PMCID: PMC3547985, DOI: 10.1109/iembs.2008.4649777.Peer-Reviewed Original Research
2007
Switching between gamma and theta: Dynamic network control using subthreshold electric fields
Berzhanskaya J, Gorchetchnikov A, Schiff S. Switching between gamma and theta: Dynamic network control using subthreshold electric fields. Neurocomputing 2007, 70: 2091-2095. PMID: 18185843, PMCID: PMC2186062, DOI: 10.1016/j.neucom.2006.10.124.Peer-Reviewed Original ResearchElectric fieldContinuous electric fieldElectric field effectTwo-dimensional modelSimulation resultsNetwork simulation resultsGeneration circuitryReduced modelExperimental dataNetwork controlDynamic network controlExperimental techniquesSubthreshold electric fieldsField effectsLamellar dimensionsOrthogonal arrangementField
2005
A Model of the Effects of Applied Electric Fields on Neuronal Synchronization
Park E, Barreto E, Gluckman B, Schiff S, So P. A Model of the Effects of Applied Electric Fields on Neuronal Synchronization. Journal Of Computational Neuroscience 2005, 19: 53-70. PMID: 16133825, PMCID: PMC1752229, DOI: 10.1007/s10827-005-0214-5.Peer-Reviewed Original Research
2004
Electric Field Control of Seizure Propagation: From Theory to Experiment
Richardson K, Schiff S, Gluckman B. Electric Field Control of Seizure Propagation: From Theory to Experiment. AIP Conference Proceedings 2004, 742: 185-196. DOI: 10.1063/1.1846476.Peer-Reviewed Original ResearchMathematical modelSpeed of propagationMathematical solutionElectric fieldElectric field controlEpileptic seizure propagationSuch electric fieldsField controlHigh enough valuesEnough valuesPropagationWavesActivity wavesDimensional networkSolutionModelFieldTheoryLower threshold valueNetworkThreshold valueSpeedParameters
2003
In Vivo Modulation of Hippocampal Epileptiform Activity with Radial Electric Fields
Richardson K, Gluckman B, Weinstein S, Glosch C, Moon J, Gwinn R, Gale K, Schiff S. In Vivo Modulation of Hippocampal Epileptiform Activity with Radial Electric Fields. Epilepsia 2003, 44: 768-777. PMID: 12790889, DOI: 10.1046/j.1528-1157.2003.35402.x.Peer-Reviewed Original ResearchMeSH KeywordsAmplifiers, ElectronicAnimalsDisease Models, AnimalElectric StimulationElectric Stimulation TherapyElectrodes, ImplantedElectronics, MedicalEpilepsyHippocampusHumansKainic AcidKindling, NeurologicMaleMembrane PotentialsMicroelectrodesRatsRats, Sprague-DawleySeizuresStereotaxic TechniquesConceptsElectric field modulationRadial electric fieldElectric fieldElectric field controlField modulationMicroelectrode pairsCharge deliveryControl systemElectrode geometryField controlSeizure onset detectionElectrodeElectric field stimulationElectronicsStimulation electrodesFieldFirst resultsNovel approachExperimentsElectric field modulation of synchronization in neuronal networks
Park E, So P, Barreto E, Gluckman B, Schiff S. Electric field modulation of synchronization in neuronal networks. Neurocomputing 2003, 52: 169-175. DOI: 10.1016/s0925-2312(02)00820-2.Peer-Reviewed Original ResearchSeizure Control using Feedback and Electric Fields
Gluckman B, Schiff S. Seizure Control using Feedback and Electric Fields. Biological And Medical Physics, Biomedical Engineering 2003, 263-282. DOI: 10.1007/978-3-662-05048-4_15.Peer-Reviewed Original Research
2001
Adaptive Electric Field Control of Epileptic Seizures
Gluckman B, Nguyen H, Weinstein S, Schiff S. Adaptive Electric Field Control of Epileptic Seizures. Journal Of Neuroscience 2001, 21: 590-600. PMID: 11160438, PMCID: PMC6763796, DOI: 10.1523/jneurosci.21-02-00590.2001.Peer-Reviewed Original Research
1998
Quantum Vlasov equation and its Markov limit
Kluger Y, Mottola E, Eisenberg J. Quantum Vlasov equation and its Markov limit. Physical Review D 1998, 58: 125015. DOI: 10.1103/physrevd.58.125015.Peer-Reviewed Original ResearchQuantum Vlasov equationElectric fieldVlasov equationMarkov limitAdiabatic particle numberParticle creation processBoltzmann-Vlasov equationDensity matrix descriptionParticle numberLongitudinal momentum dependenceBack-reaction problemStrong electric fieldParticle distribution functionField theoryEffective source termConstant electric fieldSingle-particle distribution functionMean-field theoryPair creationMomentum dependenceHamiltonian evolutionPhase spaceSource termCreation rateTime structureStochastic resonance in mammalian neuronal networks.
Gluckman B, So P, Netoff T, Spano M, Schiff S. Stochastic resonance in mammalian neuronal networks. Chaos An Interdisciplinary Journal Of Nonlinear Science 1998, 8: 588-598. PMID: 12779762, DOI: 10.1063/1.166340.Peer-Reviewed Original Research
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