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Products Potentiostat / Galvanostat * Overview * Essential Potentiostats * Premium Potentiostats * Accessories Battery Cycler * Overview * Research grade battery cycler * Ultra-precision battery cycler * Accessories Impedance analyzer * Overview * Impedance analyzer * Accessories Scanning electrochemical workstation * Overview * All products * Accessories Spectrometer * Overview * All products Stopped-flow/quench flow * Overview * All products Rapid solution changer * All products Add-on Instrument * Overview * Electrode rotator * Temperature Control Unit * Spectro electrochemistry Accessory * Battery Testing Accessory * Connection Accessory * Electrochemical Cell * Consumable * Material Testing Accessory * Scanning Accessory Learning center Energy storage and conversion * Battery * Fuel cell & electrolyser * PV * RFB * Supercapacitors Research electrochemistry * Analytical electrochemistry * Corrosion * Sensors Life sciences * Rapid kinetics * Spectroscopy * Surface characterisation Materials science Support * Support Product * Support Software * Support Accessory * Technical notes * Application notes * Tutorials * User manuals * All Documentation About us News Events Contact * Request a quote * Register my instrument * Request support * Find a distributor * Join the team * Subscribe to Newsletters & Software Updates My favourites My account Newsletter search search star_border home chevron_right Learning centerchevron_rightEnergy storage and conversion ENERGY STORAGE AND CONVERSION. ENERGY STORAGE AND CONVERSION Get the most out of your battery cycler, scanning probe workstation, or potentiostat – galvanostat. Browse this section of the site to find scientific articles, tutorials, videos, and other self-help documentation relating to energy storage and conversion. Please note that this database will be regularly updated with new documents, so check back regularly. Applications (5) Battery Fuel cell & electrolyser PV RFB Supercapacitors Filter Uses (4) Analysis Instruments and set-up Methodology and best practices Techniques Filter All results in TOPICS (118) WHAT IS CO2 ELECTROLYSIS? This article introduces CO2 electrolysis and explains CO2 reduction reactions, products from CO2RR and discusses current challenges and prospects. More info GET THE BEST EIS MEASUREMENTS, EVEN WITH LONGER CABLES As an industry leader in Electrochemical Impedance Spectroscopy, BioLogic ensures accurate EIS measurements, regardless of cable length, by compensating for parasitic effect with factory-calibrated cables. Focus on your research, not your setup. More info ZFIT: HOW THE SENSITIVITY FACTOR CAN HELP OPTIMIZE THE EQUIVALENT CIRCUIT Sensitivity functions can help you decide if a specific parameter is relevant or not. More info WHY USE RDE AND RRDE METHOD TO CHARACTERIZE ELECTROCATALYSTS? This article explains how BluRev can help you understand electrocatalyst properties using RDE and RRDE methods More info HOW TO SELECT THE RIGHT REFERENCE ELECTRODE? This article helps you decide which reference electrode is best for your experiment More info WHAT SCANNING PROBE ELECTROCHEMISTRY PLATFORM IS BEST FOR HIGH THROUGHPUT SCREENING? The article explains how to select the best high throughput workstation More info SDC OR SECM FOR HIGH THROUGHPUT SCANNING? The article compares Scanning Electrochemical Microscopy (SECM) and Scanning Droplet Cell (SDC) for high throughput workstation More info INTRODUCTION TO HIGH THROUGHPUT SCREENING This article introduces high throughput screening and explains its advantages compared to iterative testing. More info ELECTROCHEMICAL CHARACTERISATION OF FUEL CELLS AND ELECTROLYSERS This article explains the electrochemical characterization of fuel cells and electrolysers using DC and AC techniques. More info THE GERISCHER IMPEDANCE What exactly is the Gerischer impedance and which systems can be modelled with it? More info OPTIMIZE PACK AND STACK PERFORMANCE WITH SIMULTANEOUS MEASUREMENTS This article explains how our instruments and software configurations can measure both battery packs or fuel cell stacks and their individual cells simultaneously. More info WHAT ARE PEM FUEL CELLS AND ELECTROLYZERS? This article will explain the basic principles behind fuel cells / electrolyzers and show how potentiostats are used to qualify fuel cell and electrolyzer performance. More info INTRODUCING SYMMETRIC CELLS Introduction to symmetric cells and their DC and AC electrochemical response. More info WHAT ARE ALL-SOLID-STATE BATTERIES Discover key differences from traditional lithium-ion batteries, ongoing research challenges, and instrumentation requirements More info SAFETY & CONDITIONAL LIMITS: WHAT ARE THEY AND HOW ARE THEY USED? Understand the differences and the interest of embedded limits in EC-Lab® and BT-Lab®. More info HOW TO ACCESS ELECTRIC VARIABLES IN EC-LAB® EC-Lab® software allows access to the complex representation of the electrical variables obtained from electrochemical impedance measurements on ionic conductors. More info MAKE LIFE EASIER WITH SMART LIMITS AND AUTOMATIC I RANGE This article explains new tools available in EC-Lab® V11.50 including I Range in Galvano mode and smart charge limits. More info M470: AN ALL IN ONE SCANNING PROBE ELECTROCHEMISTRY SOFTWARE Everything you need for local electrochemistry in one software More info TAKE YOUR EXPERIMENTS ‘TO GO’ WITH EC-LAB® Unlock the true potential of your electrochemical experiments with wireless connectivity. More info WHICH SCAN-LAB SOFTWARE SHOULD I USE? Information on when to use the different BioLogic software available for scanning probe electrochemistry. More info EC-LAB® The stand-out potentiostat interface that just keeps getting better More info ZFIT: HOW TO HAVE CONFIDENCE IN RESULTS USING STD ERR.? This article explains the significance of the std err. parameter in ZFit, the EIS fitting tool in EC-Lab. More info SUPERCAPACITORS AND INSERTION BATTERIES: WHAT ARE THE DIFFERENCES? This article describes the main differences between supercaps and batteries. More info ZSIM AND ZFIT AS LEARNING TOOLS. PART V – HOW TO CHOOSE THE PROPER EQUIVALENT CIRCUIT? This article gives tips, tricks and general guidance for choosing the proper equivalent circuit. More info ZSIM AND ZFIT AS LEARNING TOOLS. PART VI – EQUIVALENT CIRCUITS DISTINGUISHABILITY Explain the distinguishability properties of equivalent circuits More info ZSIM AND ZFIT AS LEARNING TOOLS. PART VII – EQUIVALENT CIRCUITS IDENTIFIABILITY Explain the identifiability and unidentifiability properties of equivalent circuits More info WHAT IS A POTENTIOSTAT AND ITS USE IN SCIENCE & INDUSTRY (ELECTROCHEMISTRY BASICS SERIES) What is a potentiostat? An article detailing every aspect of this versatile electrochemical multitool. Covers Potentiostat functionality and operation, the history of the potentiostat, uses and applications and the future of the potentiostat More info HOW TO AUTOMATE EXPERIMENTS AND BUILD COMPLEX PROTOCOLS: AN INTRODUCTION TO THE M470 SEQUENCER Automating experiments, and writing complex protocols with the M470 sequencer. More info WHAT IS A FREQUENCY RESPONSE ANALYZER (FRA)? What is a Frequency Response Analyzer, what is its principle? This article details key information about FRA. More info NERNST, POURBAIX AND SELF-DISCHARGE Using the example of lead-acid batteries, the goal of this article is to provide a better understanding of Nernst law, how it can be used to construct Pourbaix diagrams, and how Pourbaix diagrams can in turn be used to explain self-discharge. More info HOW DO I CHOOSE BETWEEN STEP MODE AND SWEEP MODE? Choosing step mode or sweep mode affects experiment quality and duration from Scanning Electrochemical Microscopy to Atomic Force Microscopy More info WHAT IS A BATTERY CYCLER? What should I know about battery testing equipment? More info BATTERY SCIENCE: INTERACTIVE GLOSSARY OF TERMS What does this battery term mean? A comprehensive, interactive glossary of terms used in battery science More info WHAT IS CV? A COMPREHENSIVE GUIDE TO CYCLIC VOLTAMMETRY A highly detailed article relating to Cyclic Voltammetry and associated EC-Lab techniques More info FLEXP + WATER COOLING = MORE POWER (UP TO 800 A)! How the FlexP boosters' unique design and proprietary technology faciliates measurements for EVs and high-power applications More info INTERNAL RESISTANCE SERIES. PART I: WHAT IS INTERNAL RESISTANCE IN A BATTERY? What is internal resistance in a battery? More info INTERNAL RESISTANCE SERIES. PART II: HOW TO DETERMINE THE INTERNAL RESISTANCE OF A BATTERY This second in a series of 3 articles will help you to understand internal resistance and how it can be measured. More info INTERNAL RESISTANCE SERIES. PART III: WHICH TECHNIQUES SHOULD I USE TO INVESTIGATE THE INTERNAL RESISTANCE OF A BATTERY? This article in BioLogic's Learning Center explains which techniques are applicable for the investigation of internal resistance in batteries More info WHAT IS ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY (EIS)? ELECTROCHEMISTRY BASICS SERIES Electrochemical Impedance spectroscopy (EIS) is a powerful tool enabling the study of processes that occur at the interface of the electrode. More info THE FARADAY CAGE: WHAT IS IT AND HOW DOES IT WORK? What is a Faraday Cage. How does it work? The article looks at the use of the Faraday cage in electrochemistry. More info FUTURE PROOF YOUR POTENTIOSTAT WITH PREMIUM RANGE, SELF-INSTALL INTERNAL BOOSTERS. The article explains how users can easily upgrade their Premium range potentiostat by installing boosters, thereby increasing the scope of the instrument. More info GUIDELINES FOR PROPER ELECTROCHEMICAL NOISE (EN) MEASUREMENTS How to properly perform EN measurements with BioLogic products. More info SECM101: WHAT IS CONSTANT DISTANCE (CD)-SECM? Constant Distance (CD)-SECM is introduced in this BioLogic Learning Center article More info SCANNING PROBE ELECTROCHEMISTRY: A GLOSSARY OF TERMS What do the different terms relating to local electrochemistry mean? This article gives a definitive list More info ENSURING THE QUALITY OF ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY MEASUREMENTS ON HIGH-POWER SYSTEMS The quality of EIS measurements on high-power systems is presented in this article. More info DISTRIBUTION OF RELAXATION TIMES (DRT): HOW TO IDENTIFY EQUIVALENT CIRCUITS EFFICIENTLY The Distribution of Relaxation Times (DRT) analysis (equivalent circuit identification tool) is introduced. More info KEY FACTORS TO CONSIDER WHEN LOOKING FOR A SCANNING ELECTROCHEMICAL WORKSTATION. Factors of interest when looking at a scanning electrochemical workstation are discussed. More info SECM101: INTRODUCTION TO THE REDOX MEDIATOR The Scanning Electrochemical Microscopy (SECM) redox mediator is introduced. More info SKP VS KPFM Scanning Kelvin Probe and Kelvin Probe Force Microscopy are compared. More info CVSIM AS A LEARNING TOOL III: LINEARITY IN EIS Article describes how CVSim can be used to study the behaviour of a redox reaction during an Electrochemical Impedance Spectroscopy (EIS) measurements. More info OSP101: INTRODUCTION TO THE OPTICAL SURFACE PROFILER TECHNIQUE An introduction to the Optical Surface Profiler (OSP) technique More info WHAT IS THE DEFINITION OF THE IMPEDANCE Z? How to correctly define the ZZ impedance More info WHICH SCANNING PROBE ELECTROCHEMISTRY TECHNIQUE? The scanning probe electrochemistry techniques on the M470 are compared. More info ZSIM AND ZFIT AS LEARNING TOOLS. PART IV – THE EFFECT OF HIGH FREQUENCY INDUCTANCE. High frequency inductance can strongly affect the shape of impedance graphs and need to be accounted for during data fitting. More info ANATOMY OF AN SKP PROBE The key features of an SKP probe will be discussed. More info SKP AND THE FRINGING EFFECT The fringing effect and its role in Scanning Kelvin Probe (SKP) is introduced. More info CVSIM AS A LEARNING TOOL. II INTERFACIAL CONCENTRATIONS CVSim is used to determine the peak current concentration of electroactive species involved in a reversible redox reaction (E). More info ZSIM AND ZFIT AS LEARNING TOOLS. PART II – WHY CIRCLE FITTING IS WRONG? We demonstrate why circle fitting should not be used to analyze impedance data using ZSim- part of EC-Lab, BioLogic's potentiostat control/analysis software More info ZSIM AND ZFIT AS LEARNING TOOLS. PART III – HOW TO DETECT AN INDUCTIVE BEHAVIOUR AT LOW FREQUENCIES Does the Nyquist impedance diagram of the C1/R1/(R2+L2) circuit always have an inductive arc at low frequencies? More info NOT NEGATIVE. NOT POSITIVE. NEGATIVE AND POSITIVE. FULL CELL CONTROL FOR PREMIUM & ESSENTIAL INSTRUMENTS The ability to fully understand the behavior of positive & negative electrodes gives battery researchers a holistic view of battery performance. More info NEW WEBINAR (BIOLOGIC US): DOES MG2+ REVERSIBLY INTERCALATE INTO TRANSITION METAL OXIDES? REGISTRATION & ABSTRACT Details of the latest webinar in the Blue Box Webinar Series and registration links More info INVESTIGATION OF STRUCTURE-ELECTROCHEMISTRY RELATIONSHIPS IN NOVEL SILICON ANODES FOR LITHIUM-ION BATTERIES (WEBINAR) Part two of the BioLogic USA Blue Box Webinar Series: Structure-Electrochemistry Relationships in Novel Silicon Anodes for Lithium-ion Batteries More info MULTICHANNEL & SINGLE-CHANNEL POTENTIOSTATS – WHAT’S THE DIFFERENCE? (ELECTROCHEMISTRY BASICS SERIES) An overview of the differences between single channel and multichannel potentiostat galvanostats More info DON’T FORGET OUR YOUTUBE CHANNEL Don't forget that a wide range of support, software tutorials and product support videos are also available on our YouTube Channel More info ZSIM AND ZFIT AS LEARNING TOOLS. PART I – ACIDIC CORROSION An overview of ZSim the powerful Electrochemical Impedance Spectroscopy (EIS) simulation tool available in EC-Lab®, More info RP=LIMF→0REZRP=LIMF→0REZ. WHY? Why is the polarization resistance the finite low-frequency limit of the impedance? This Learning Center article explains why... More info BATTERY STATES: STATE OF CHARGE (SOC), STATE OF HEALTH (SOH). ELECTROCHEMISTRY BASICS SERIES. Battery States (Charge and of Health) are defined and discussed in this article. More info SCANNING PROBE ELECTROCHEMISTRY FOR CATALYSIS RESEARCH An overview of the benefits of local electrochemistry in research in the field of catalysis More info INVESTIGATING BATTERY AGING USING DIFFERENTIAL CAPACITY ANALYSIS (DCA) The importance of DCA for battery aging... More info HOW TO READ BATTERY CYCLING CURVES An overview of how to read cycling curves and their relevance to battery performance/behavior More info HOW TO CORRECT IMPEDANCE MEASUREMENTS WHEN USING LONGER CABLES OR A TEST FIXTURE (ELECTROCHEMISTRY BASICS SERIES) Focus on your Device under Test. How to remove parasitic impedance due to extension cables or connection interfaces More info THE DIFFERENT CURRENT AND VOLTAGE SETPOINT OPTIONS IN EC/BT-LAB® This article presents the various options available in EC/BT-Lab® for potential and current setpoints. More info HOW TO AVOID SIDE REACTIONS DURING BATTERY CHARGING/DISCHARGING? How can we avoid unwanted reactions at the electrodes during battery charging/discharging? More info SCANNING PROBE ELECTROCHEMISTRY FOR SUSTAINABLE ENERGY RESEARCH A short article and associated video relating to scanning probe electrochemistry and sustainable energy More info HOW TO USE ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY (EIS) ACCURACY CONTOUR PLOTS EIS accuracy contour plots must be used to interpret errors made during EIS measurements and identify the best frequencies possible for a given impedance range. More info THE RRDE AS A PH PROBE IN SITU The Rotating Ring Disk Electrode (RRDE) Ring can be used as a potentiometric or amperometric in situ pH probe. This is extremely useful to study electrochemical reactions that involves OH- or H+ ions. More info EFFECT OF THE STAIRCASE ON CURRENT SAMPLING. An article detailing the effect of the staircase on current sampling More info CHECKING AND VALIDATING REFERENCE ELECTRODES (ELECTROCHEMISTRY BASICS SERIES) The reference electrode is part of the 3-electrode setup. A bad reference electrode can impact negatively on measurements. In this article, we discuss the protocol necessary to check reference electrodes. More info INVESTIGATION OF IMPEDANCE MEASUREMENTS USING THE Z SIM TOOL (ELECTROCHEMISTRY BASICS SERIES) To adjust the frequency range of your EIS experiment or just to see the shape of your model, Z Sim is available on both EC-Lab® and BT-Lab® software. More info NYQUIST PLOTS: WHY USE THE ORTHONORMAL SCALE? This article illustrates why the orthonormal scale should be used for Nyquist impedance plots. More info DC-SECM AND THE SECM150 The dc-SECM technique. Includes a link to a more detailed, downloadable document. More info 100TH LEARNING CENTER PUBLISHED How to get the best out of BioLogic's Learning Center More info ROTATING RING DISK ELECTRODE: AN INTRODUCTION The principles and main uses of the Rotating Ring Disk Electrode. More info HOW DO I CUSTOMIZE MY PLOTS? A suitable plot with the right variables allows you directly access the results and saves a great deal of time during the analysis. In this short article we show you how... More info CREATE AND SAVE YOUR OWN PROTOCOLS Learn how to save time by configuring full experiments from previous settings; including safety limits, advanced settings, cell characteristics and external device configuration. More info LEVICH ANALYSIS: THE PRINCIPLES The Levich analysis is mainly used to determine the diffusion coefficient of a redox species. But how does it work exactly? More info KOUTECKÝ-LEVICH ANALYSIS: THE PRINCIPLES The Koutecký-Levich analysis is used to determine kinetic parameters of a redox reaction. But how does it work exactly? More info SPLIT ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY (EIS) EXPERIMENTS INTO MULTIPLE SEQUENCES: SAVE TIME WITHOUT COMPROMISING QUALITY Reliable impedance measurements require the system under study to remain linear and stationary during the whole measurement sequence. This article describes the ideal configuration for studying unstable systems such as batteries or supercaps to save time while maintaining good measurement quality. More info WORK SMARTER, NOT HARDER: TECH-TIPS A series of short articles explaining how to work more efficiently and streamline your workflow More info QCM: WHY MEASURE AT OVERTONES MATTERS The benefits of QCM measurements at overtones are described. More info QCM: HISTORY AND PRINCIPLES The principles behind the QCM technique are described as well as an introduction to its history. More info QCM: WHEN IS THE SAUERBREY EQUATION VALID? How to ensure the validity of the Sauerbrey equation More info QCM: MEASUREMENT PRINCIPLES The measurement principles used in QCM are described More info CONNECTION TO THE CELL – PART 3 – PERMEATION CELL MEASUREMENTS (WORKING ELECTRODE TO GROUND) Last in a three part series about connection modes More info CONNECTION TO THE CELL – PART 2 – MULTI-ELECTRODE MEASUREMENT The second in a third part series of three articles about connection modes. More info CONNECTION TO THE CELL – PART 1 – WHAT IS “GROUND”? Different grounding options based on application type More info SCANNING PROBES & FUEL CELL RESEARCH Scanning Probes & Fuel Cell Research: overview of techniques More info SECM TO FORM AND SCREEN MICRON SCALE ELECTROCATALYSTS Article illustrating how SECM can be used for high throughput screening of novel electrocatalytic materials destined for green energy sources More info EIS AND BATTERY SCREENING Article describing how advanced EIS battery cyclers can play a multipurpose role in battery screening. More info A BRIGHT IDEA: SCANNING KELVIN PROBE (SKP) FOR THE INVESTIGATION OF PHOTOVOLTAIC SYSTEMS Article covers the importance of accurately measuring the work function of device components, in particular that of the electrodes. in relation to photovoltaic technologies More info SCANNING PROBES & PHOTOVOLTAIC RESEARCH Scanning probe electrochemistry has already been used to help answer a number of questions relating to photovoltaics. This article will discuss the benefits of scanning proble electrochemistry in relation to PV. More info ANODE VS CATHODE: WHAT’S THE DIFFERENCE? This article clarifies the differences between anodes cathodes and positive and negative electrodes in secondary batteries. More info WHY USE ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY (EIS) FOR BATTERY RESEARCH? Understand which information you can accurately obtain from your insertion material using Electrochemical Impedance Spectroscopy. More info GET MORE FROM YOUR POTENTIOSTAT. UNDERSTANDING BANDWIDTH & ITS EFFECT ON MEASUREMENTS (ELECTROCHEMISTRY BASICS SERIES) An article which gives an overview of the electronic system that sits behind a potentiostat/galvanostats and describes how it can affect your measurements. More info HOW TO CHECK AND CORRECT THE TIME VARIANCE OF YOUR SYSTEM UNDER EIS MEASUREMENTS Are you running EIS experiments on a corroding electrode or on a charging or discharging battery and obtaining unusual or strange data at low frequencies? You should check that the change of your system does not affect your EIS measurements. Here are a few tools available in EC-Lab® to help you deal with such situations. More info HOW TO MAKE RELIABLE ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY MEASUREMENTS WITH EIS QI™ To be considered reliable, EIS measurements must be performed on a system that is linear, in a steady-state and time-invariant. Quality Indicators are made available to users of EC-Lab® to ensure that the system fulfills these requirements. More info PEIS OR GEIS OR GEIS-AA? THAT IS THE QUESTION. Electrochemical Impedance Spectroscopy (EIS) measurements are generally performed under potentio control (PEIS) rather than under galvano control (GEIS). In most cases, the potentio and galvano modes are equivalent and give the same results, except in some cases when galvano mode is recommended, for example, when the system changes during the measurement… More info SCANNING PROBE ELECTROCHEMISTRY & BATTERY RESEARCH As demand for electric vehicles, portable electronics, and green energy storage grow, so too will the demand for better batteries. To improve on current battery technologies, researchers must intimately understand battery components More info ZFIT (IMPEDANCE FITTING) TUTORIALS FOR POTENTIOSTATS AND BATTERY CYCLERS Series of tutorials about ZFit, BioLogic's impedance fitting tool More info COUPLING POTENTIOSTATS & SPECTROMETERS FOR SPECTROELECTROCHEMICAL MEASUREMENTS One of the possibilities of characterizing intermediate species created during a redox process, is to couple a spectrometer with a potentiostat More info THE ELECTRICAL CONDUCTIVITY OF SOLID ELECTROLYTES The efficiency and performance of energy storage devices depend on the electrical properties of the materials used for the anode, cathode and for the electrolyte. More info DATA OF INTEREST – WORK MORE EFFICIENTLY. Get the most out of your potentiostat/battery cycler : how EC/BT-Lab can help you work more efficiently as well as save valuable time. More info RESOLUTION, PRECISION, ACCURACY, TEMPERATURE STABILITY AND TIME BASE: THE FIVE TO WATCH (ELECTROCHEMISTRY BASICS SERIES) The five characteristics that should be on every electrochemist’s radar More info HPC: THE IMPORTANCE OF ULTRA-PRECISION BATTERY CYCLERS As opposed to standard cycling techniques, High Precision Coulometry (HPC) measurements can provide a reliable estimation of battery lifetime quickly More info NO NEED TO PLAN YOUR FUTURE ANALYSIS… GO STRAIGHT AHEAD It is time to demystify a false truth. You really do not always need to add points in the record settings of BT-Lab® and EC-Lab® in order to obtain highly accurate measurements. More info MODIFY ON-THE-FLY: FLEXIBLE POTENTIOSTAT/BATTERY CYCLER CONTROL No need to stop the experiment with EC-Lab®’s “modify-on-the-fly” functionality More info WHY 4-POINT MEASUREMENTS? A potentiostat / galvanostat is an instrument that can control both the current and the voltage imposed to a cell. For this purpose, Bio-Logic instruments require at least 4 cables: More info POTENTIOSTATS: OBTAINING HIGH QUALITY MEASUREMENTS (ELECTROCHEMISTRY BASICS SERIES) This article gives some tips to improve the quality of measurements, from optimizing the setup or the connection interfaces, to the geometry of the cell itself. More info DISCOVER * Products * News ABOUT BIOLOGIC * Careers * About us * Partners CONTACT * Contact us * Sales network * Support RESOURCES * Newsletter (subscription/back catalogue) * Press room * Documentation Terms of use • Privacy policy © 2024 BioLogic Work smarter. Not harder. Tech-tips, theory, latest functionality, new products & more. Subscribe to the newsletter No thanks!