Elektrochemisches Impedanzspektrometer
Allgemeine Beschreibung
Anwendungen
- elektrochemische Impedanzspektroskopie
- präzise industrielle Flüssigkeitsmessungen
- differentielle elektrochemische Messgeräte für Forschungs-/Laborzwecke
- Detektoren für schwache ionische Veränderungen in Flüssigkeiten, die durch optische, elektromagnetische, magnetische und andere Anregungen verursacht werden
- Analyse und Nachweis von nicht-chemischen Behandlungen von flüssigen Proben
- Langzeitüberwachung von Flüssigkeiten und organischen Geweben, z. B. zur Qualitätskontrolle, bei der Analyse biochemischer Reaktionen
- Analyse von spin-gesteuerten elektrochemischen Eigenschaften (z.B. chemische Reaktivität)
Eigenschaften
– main processor
– hardware support of EIS analysis
– non-volatile (flash) memory
– sampling frequency
– electric excitation
– optical excitation
– consumed current
– conductivity measurements
– temperature resolution
– frequency spectra for EIS
– measurement modes
– EIS analysis
– duration of long-term measurements
– interface
ARM cortex M3 MPU, 80 MHz
PSoC system
512 Mb
(12-24 bits) up to 1 Msps
0.01V, 0.1V, 1V
470nm (blue light), other excitations are possible
90-120mA
0.6 uS/cm-200 mS/cm
up to 0.001C
8Hz-0.1MHz/0.2MHz/0.65MHz (recommended/typical/maximal)
impedance spectrometer, signal scope, long-term impedance measurements
FRA, RMS, correlation, regression, statistical, excitation, electrochemical stability
on the level of weeks
USB 2.0 (USB hub and USB-to-USB isolator are recommended)
Verwandte Produkte/Komponenten
- Kunststoffbehälter: googeln Sie nach „Universal Kunststoffdose (Pathogefäss) 20ml“; es gibt sie in mehreren Geschäften, ebay, amazon
- Mini-PC mit Intel Celeron J4125 (Win10 PRO OS) für fortschrittliche Konnektivität für langfristigen autonomen Betrieb
- Verschiedene Elektroden
Handbücher & Anwendungshinweise
- CYBRES Measurement Unit MU3: SHORT MANUAL (English, German, French, Ukrainian, Arabic, Chinese)
- CYBRES EIS Differential Impedance Spectrometer for electrochemical and electrophysiological analysis of fluids and organic tissues: EXTENDED USER MANUAL
- Application Note 18. Online system for automatic detection of remote interactions based on the CYBRES MU EIS impedance spectrometer
- Application Note 20. Increasing accuracy of repeated EIS measurements for detecting weak emissions
- Application Note 24. Analysis of electrochemical noise for detection of non-chemical treatment of fluids
- Application Note 26. Methodology and protocols of feedback-based EIS experiments in real time
- short information: Innovation — CYBRES EIS spectrometer
- Presentation “Characterizing the non-chemical water treatment – advanced biological and electrochemical approaches” on the XIII conference of physics, chemistry and biology of water, 2018
- Presentation “Remote Consciousness: Latest Results from Optically Excited Electrochemical Impedance Spectroscopy”, on the XIII conference of physics, chemistry and biology of water, 2019
Veröffentlichungen
- S.Kernbach, Distant Monitoring of Entangled Macro-Objects, NeuroQuantology, 17(3), 19-42, 2019
- S.Kernbach, I.Kuksin, O.Kernbach, A.Kernbach, The Vernadsky scale — on metrology of EIS in time-frequency domain, IJUS, 15–16(5), pp.143–150, 2017
- S.Kernbach, O.Kernbach,Reliable detection of weak emissions by the EIS approach, IJUS, E1, pp.90-103, 2017
- S.Kernbach, I.Kuksin, O.Kernbach, On Accurate Differential Measurements with Electrochemical Impedance Spectroscopy, WATER, 8, 136-155, 2017
- S.Kernbach, O.Kernbach,Reliable detection of weak emissions by the EIS approach, russian version, 14(4), стр. 65-79, 2016
- S.Kernbach, V.Zamsha, Y.Kravchenko, Experimental Approach Towards Long-Range Interactions from 1.6 to 13798 km Distances in Bio-Hybrid Systems, NeuroQuantology, 14(3), pp.456 -476, 2016
- S. Kernbach, O. Kernbach. On precise pH and dpH measurement, IJUS, 5(2), 83-103, 2014
- S. Kernbach, O. Kernbach. On precise pH and dpH measurement, (russian version), IJUS, 5(2), 83-103, 2014
- S. Kernbach. The Minimal Experiment (rus), IJUS, 4(2), 50-61, 2014
- S.Kernbach, Replication Attempt: Measuring Water Conductivity with Polarized Electrodes, J. of Scientific Exploration, Vol. 27, No. 1, pp. 69–105, 2013
- S. Kernbach. Tests of the circular Poynting vector emitter in static E/H fields, IJUS, Issue E2, pages 23-40, 2018
- S. Kernbach. Replication experiment on distant influence on biological organisms conducted in 1986, IJUS, Issue E2, pages 41-46, 2018
- S. Kernbach, M. Trukhanova, V. Zhigalov, V. Panchelyuga, Para- and ortho- isomers of water: theory, experiments and new opportunities for multidisciplinary water research, Conference on the Physics, Chemistry, and Biology of Water, Oct, 13-16, 2022,At: Bad Soden, Germany
- Kernbach, S., & Kernbach, O. (2022). Environment-dependent fluctuations of potentiometric pH dynamics in geomagnetic field. Electromagnetic Biology and Medicine, 41(4), 409–418. doi: 10.1080/15368378.2022.2125527
- S. Kernbach Electrochemical Characterization of Ionic Dynamics Resulting from Spin Conversion of Water Isomers, 2022 J. Electrochem. Soc. 169 067504, DOI 10.1149/1945-7111/ac6f8a
- Kernbach, S. (2022). Electric-field-coupled oscillators for collective electrochemical perception in biohybrid robotics. Bioinspiration & Biomimetics. 17. 10.1088/1748-3190/ac93d8.
- S. Kernbach, O. Kernbach, I. Kuksin, A. Kernbach, Y. Nepomnyashchiy, T. Dochow, A.V. Bobrov, The biosensor based on electrochemical dynamics of fermentation in yeast Saccharomyces cerevisiae, Environmental Research, Volume 213, 2022, 113535, doi: 10.1016/j.envres.2022.113535