Product Videos

In the video library you can find presentations of our products.
  • Solartron Analytical's Apps XM: Application Focused Instruments
    Solartron Analytical's Apps XM: Application Focused Instruments

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  • VersaStudio Tutorial: Cut, Copy and Paste Experimental Sequences
    VersaStudio Tutorial: Cut, Copy and Paste Experimental Sequences

    Welcome to VersaStudio! See how easy it is to set up your experiment and get started using the most powerful software for electrochemistry from the experts at Princeton Applied Research. Download it here: http://www.ameteksi.com

    The complete VersaStudio software provides full access to the capabilities of the VersaSTAT series of instruments, including the high current option and power booster when present. Various systems combining hardware and the VersaStudio software are provided to focus on the particular application areas or to minimize cost.

    Systems may be upgraded at any time as budget becomes available or as requirements change. An impressive list of corrosion and electrchemical experiment types are provided that can be run individually or combined in powerful experiment sequences:

    Open Circuit, Square Wave Voltammetry, Potentiostat EIS, Linear Scan Voltammetry, Differential Pulse Voltammetry, Galvanostatic EIS, Cyclic Voltammetry (single), Normal Pulse Voltammetry, Loop, Cyclic Voltammetry (multiple cycles), Reverse Normal Pulse Voltammetry, Time Delay, Staircase Linear Scan Voltammetry, Zero Resistance Ammeter (ZRA), Message Prompt,
    Staircase Cyclic Voltammetry (single), Galvanic Corrosion, Measure OC, Staircase Cyclic Voltammetry (multiple), Cyclic Polarization, Auxiliary Interface, Chronoamperometry, Linear Polarization, Run External Application, Chronopotentiometry, Tafel, DAC Output Control, Chronocoulometry, Potentiostatic, Condition, Fast Potential Pulses, Potentiodynamic, Deposition,
    Fast Galvanic Pulses, Galvanostatic, Equilibration, Recurrent Potential Pulses, Galvanodynamic, Purge, Recurrent Galvanic Pulses, Dynamic iR, iR Determination

    VersaStudio is compatible with the following systems:
    VersaSTAT Series, PARSTAT3000, PARSTAT 4000(+), PARSTAT MC Family, VersaSCAN

    Welcome to VersaStudio! See how easy it is to set up your experiment and get started using the most powerful software for electrochemistry from the experts at Princeton Applied Research. Download it here: http://www.ameteksi.com

    The complete VersaStudio software provides full access to the capabilities of the VersaSTAT series of instruments, including the high current option and power booster when present. Various systems combining hardware and the VersaStudio software are provided to focus on the particular application areas or to minimize cost.

    Systems may be upgraded at any time as budget becomes available or as requirements change. An impressive list of corrosion and electrchemical experiment types are provided that can be run individually or combined in powerful experiment sequences:

    Open Circuit, Square Wave Voltammetry, Potentiostat EIS, Linear Scan Voltammetry, Differential Pulse Voltammetry, Galvanostatic EIS, Cyclic Voltammetry (single), Normal Pulse Voltammetry, Loop, Cyclic Voltammetry (multiple cycles), Reverse Normal Pulse Voltammetry, Time Delay, Staircase Linear Scan Voltammetry, Zero Resistance Ammeter (ZRA), Message Prompt,
    Staircase Cyclic Voltammetry (single), Galvanic Corrosion, Measure OC, Staircase Cyclic Voltammetry (multiple), Cyclic Polarization, Auxiliary Interface, Chronoamperometry, Linear Polarization, Run External Application, Chronopotentiometry, Tafel, DAC Output Control, Chronocoulometry, Potentiostatic, Condition, Fast Potential Pulses, Potentiodynamic, Deposition,
    Fast Galvanic Pulses, Galvanostatic, Equilibration, Recurrent Potential Pulses, Galvanodynamic, Purge, Recurrent Galvanic Pulses, Dynamic iR, iR Determination

    VersaStudio is compatible with the following systems:
    VersaSTAT Series, PARSTAT3000, PARSTAT 4000(+), PARSTAT MC Family, VersaSCAN

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  • Dye-Sensitized Solar Cell Analysis
    Dye-Sensitized Solar Cell Analysis

    http://www.ameteksi.com/Ou...
    ModuLab® DSSC is a fully integrated photoelectrochemical measurement system designed for the characterization of Dye Sensitized Solar Cells. Additionally, the system can be used for development of visible spectrum photoelectrochemical systems such as Iron- Oxide mediated photo-splitting of water.

    Table of Contents
    Intro 0:00
    Collaborating with Prof. Laurie Peter 2:17
    DSSCs and important measurement parameters explained 3:20
    ModuLab XM PhotoEchem 6:10
    Automatic Data Analysis 7:16
    Optical Bench Design 11:52
    Low light studies 17:15
    NIST traceable measurements 18:54
    LED Options 22:14
    Other applications 22:41

    A comprehensive suite of techniques, developed by the leaders in this field for over 20 years are available. Solartron Analytical recognized that many users are unfamiliar to many of these techniques and therefore, at the heart of the product concept is the ability to analyze much of the data at one click of the mouse! No previous knowledge of frequency domain technique required. For the experienced user, the ModuLab offers the ability to build and develop new experiment types with the powerful step sequencer. The highlights of the system include:
    Range of Frequency and Time Domain Measurements techniques including IMPS, IMVS, Impedance, PhotoVoltage Decay, Charge Extraction Techniques , I-V
    ‘Auto’ analysis of data enabled for calculation of effective Diffusion coefficients and Electron Lifetimes at one click of a button. Suitable for users new to Frequency Domain Techniques
    NIST traceable Light Source calibration routine
    Excellent thermal management of light sources for long term stability
    Wide range of Monochromatic high brightness LED’s available
    Full suite of Electrochemical Techniques including Cyclic Voltmmetry, Chrono - Methods, Galvano methods and comprehensive list of Impedance and AC Voltammetry Methods
    Auxiliary Channel Measurements for simultaneous determination of anode and cathode impedance and voltages
    Solartron Analytical FRA technology inside including single, swept and Multi-sine techniques.

    Comprehensive Techniques Package
    A dedicated suite of software specifically developed for testing photo-electrochemical devices is included:
    Intensity Modulated Photocurrent Spectroscopy - IMPS
    Intensity Modulated Photovoltage Spectroscopy - IMVS
    Impedance Spectroscopy
    I-V
    Charge Extraction Methods
    Short Circuit
    Dark Charge Extraction
    Photo Voltage Decay

    Enhanced Productivity

    With the ability to auto-sequence techniques, the full suite of measurement possibilities can be run at a click of the mouse. Unlike other systems, the ModuLab DSSC was designed to allow all measurements to be run in sequence without any interference from the end user. This greatly increases productivity and ease of use.

    Auto - Analysis
    Detailed Analysis of DSSC’s Has Never Been Easier

    Data can be auto-analyzed with pre-programed algorithms. Data is presented in graphical format allowing researchers to quickly evaluate their samples and provide in-depth information that is unavailable with simple I-V curve analysis alone.

    Other Techniques

    The system is delivered with 4 AUX voltage measurement channels. These channels are included specifically to enable the measurement of the internal quasi Fermi level of the DSSC.
    The system can also be configured to work with third party systems such as solar simulators and monochromators to extend measurement possibilities to:
    Full Sun I-V simulations
    IPCE measurements

    http://www.ameteksi.com/Ou...
    ModuLab® DSSC is a fully integrated photoelectrochemical measurement system designed for the characterization of Dye Sensitized Solar Cells. Additionally, the system can be used for development of visible spectrum photoelectrochemical systems such as Iron- Oxide mediated photo-splitting of water.

    Table of Contents
    Intro 0:00
    Collaborating with Prof. Laurie Peter 2:17
    DSSCs and important measurement parameters explained 3:20
    ModuLab XM PhotoEchem 6:10
    Automatic Data Analysis 7:16
    Optical Bench Design 11:52
    Low light studies 17:15
    NIST traceable measurements 18:54
    LED Options 22:14
    Other applications 22:41

    A comprehensive suite of techniques, developed by the leaders in this field for over 20 years are available. Solartron Analytical recognized that many users are unfamiliar to many of these techniques and therefore, at the heart of the product concept is the ability to analyze much of the data at one click of the mouse! No previous knowledge of frequency domain technique required. For the experienced user, the ModuLab offers the ability to build and develop new experiment types with the powerful step sequencer. The highlights of the system include:
    Range of Frequency and Time Domain Measurements techniques including IMPS, IMVS, Impedance, PhotoVoltage Decay, Charge Extraction Techniques , I-V
    ‘Auto’ analysis of data enabled for calculation of effective Diffusion coefficients and Electron Lifetimes at one click of a button. Suitable for users new to Frequency Domain Techniques
    NIST traceable Light Source calibration routine
    Excellent thermal management of light sources for long term stability
    Wide range of Monochromatic high brightness LED’s available
    Full suite of Electrochemical Techniques including Cyclic Voltmmetry, Chrono - Methods, Galvano methods and comprehensive list of Impedance and AC Voltammetry Methods
    Auxiliary Channel Measurements for simultaneous determination of anode and cathode impedance and voltages
    Solartron Analytical FRA technology inside including single, swept and Multi-sine techniques.

    Comprehensive Techniques Package
    A dedicated suite of software specifically developed for testing photo-electrochemical devices is included:
    Intensity Modulated Photocurrent Spectroscopy - IMPS
    Intensity Modulated Photovoltage Spectroscopy - IMVS
    Impedance Spectroscopy
    I-V
    Charge Extraction Methods
    Short Circuit
    Dark Charge Extraction
    Photo Voltage Decay

    Enhanced Productivity

    With the ability to auto-sequence techniques, the full suite of measurement possibilities can be run at a click of the mouse. Unlike other systems, the ModuLab DSSC was designed to allow all measurements to be run in sequence without any interference from the end user. This greatly increases productivity and ease of use.

    Auto - Analysis
    Detailed Analysis of DSSC’s Has Never Been Easier

    Data can be auto-analyzed with pre-programed algorithms. Data is presented in graphical format allowing researchers to quickly evaluate their samples and provide in-depth information that is unavailable with simple I-V curve analysis alone.

    Other Techniques

    The system is delivered with 4 AUX voltage measurement channels. These channels are included specifically to enable the measurement of the internal quasi Fermi level of the DSSC.
    The system can also be configured to work with third party systems such as solar simulators and monochromators to extend measurement possibilities to:
    Full Sun I-V simulations
    IPCE measurements

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  • How to Model a Li-Battery: A Basic Tutorial
    How to Model a Li-Battery: A Basic Tutorial

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  • Introduction to VersaStudio from Princeton Applied Research
    Introduction to VersaStudio from Princeton Applied Research

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  • PARSTAT4000+ High Compliance Voltage Potentiostat
    PARSTAT4000+ High Compliance Voltage Potentiostat

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  • PARSTAT3000 High Polarization Potentiostat
    PARSTAT3000 High Polarization Potentiostat

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  • PARSTAT4000 High Compliance Voltage Potentiostat
    PARSTAT4000 High Compliance Voltage Potentiostat

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  • PARSTAT MC Multichannel Potentiostat
    PARSTAT MC Multichannel Potentiostat

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  • VersaSCAN Electrochemical Scanning Microscopy Techniques Overview
    VersaSCAN Electrochemical Scanning Microscopy Techniques Overview

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  • VersaScan Scanning Electrochemical Microscope Webinar (SECM)
    VersaScan Scanning Electrochemical Microscope Webinar (SECM)

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  • VersaScan Scanning Vibrating Electrode Technique (SVET)
    VersaScan Scanning Vibrating Electrode Technique (SVET)

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  • VersaStudio Tutorial: Docking and Undocking Windows
    VersaStudio Tutorial: Docking and Undocking Windows

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  • VersaStudio Tutorial: Pin and Move Select Instrument and Data View Windows
    VersaStudio Tutorial: Pin and Move Select Instrument and Data View Windows

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  • Modulab XM MTS Materials Test System
    Modulab XM MTS Materials Test System

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  • XM PhotoEchem
    XM PhotoEchem

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  • ModuLab XM Photoechem IPCE Add-on
    ModuLab XM Photoechem IPCE Add-on

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  • 7124 Lock-in Amplifier for Low Temperature Applications
    7124 Lock-in Amplifier for Low Temperature Applications

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  • 7230 and 7270 DSP Lock-in Amplifier Introduction
    7230 and 7270 DSP Lock-in Amplifier Introduction

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  • Electrochemistry - Soft Stylus Probe & VersaSCAN European Demo Center
    Electrochemistry - Soft Stylus Probe & VersaSCAN European Demo Center

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