Solartron Analytical

There are many techniques that find use in a wide array of research fields. These range from different types of electrochemical to materials analysis. Below is a collection of Application Notes designed to provide Solartron Analytical users with practical information to ensure our instruments are used to their fullest capability.
CellTest System

DC cell analysis techniques; Demonstration guides - introduction
DC cell analysis techniques; Ohmic drop measurements
AC / DC cell analysis techniques; State of charge investigation
AC / DC cell analysis techniques; Characterisation of individual cells within energy storage devices using auxiliary electrodes
AC and DC cell analysis techniques; High current tests
AC and DC cell analysis techniques; Harmonic analysis
DC cell analysis techniques; Simulation of GSM mobile phone current pulses
AC and DC cell analysis techniques; Simultaneous multi-channel measurements
AC / DC cell analysis techniques; Comparison of multi-sine / FFT and single sine correlation
High frequency, high current impedance spectroscopy: Experimental protocols enabling measurement up to 1MHz at high current densities
Use of auxiliary channels for impedance analysis: Detecting failure mechanisms within a fuel cell / battery stack
Parallel channel combinations: A method of Increasing the DC current capability of the CellTest system without the addition of power boosters
Solartron CellTest System Impedance measurement techniques

Electrochemistry

Determination of coating adhesion using electrochemical impedance spectroscopy
Impedance Measurement Techniques: Sine Correlation
Identification of electrochemical processes by frequency response analysis
An Introduction to Electrochemical Impedance Measurement
Frequency Response Analysis
Understanding Electrochemical Cells
Use and Applications of Electrochemical Impedance Techniques
Technical Report 26 Mansfeld EIS Metals and AlloysTechnical
Report 31 Hong Shih EIS for Battery Research

Technical Report 33 Enos Potentiodynamic Scan
Electrochemical Impedance Spectroscopy: Modeling of Li Batteries
Electrochemical Impedance Spectroscopy: EIS Battery Monitoring
High Frequency, High Current Electrochemical Impedance Spectroscopy: Experimental protocols enabling measurements at high current densities
Use of auxiliary channels for impedance analysis: Detecting failure mechanisms within a fuel cell / battery stack

Materials 

I-V, C-V and Impedance Characterization of Photovoltaic Cells using Solartron Instrumentation
Electrical Characterization of OLED’s Using Solartron Instrumentation
An Introduction to the Solartron ModuLab MTS Platform for the Characterization of Semiconductors including I-V, Pulse I-V, C-V and Impedance/Admittance
Beyond the Limits: The 1296 Dielectric Interface
Impedance Measurement Techniques: Sine Correlation
Frequency Response Analysis
The Application of Impedance Spectroscopy to Cementitious Systems
Impedance Analysis Techniques
Advanced Instrumentation for Civil Engineering Applications
Advanced Instrumentation for Bioimpedance Measurements

ModuLab XM ECS

Application Guide Introduction
DC cell analysis techniques Ohmic drop measurements
EIS cell analysis techniques State of charge analysis
EIS cell analysis techniques Characterisation of individual cells within energy storage devices using auxiliary electrodes
EIS cell analysis techniques Comparison of single sine correlation and multi-sine / FFT
EIS cell analysis techniques Harmonic analysis
DC cell analysis techniques GSM mobile phone pulse test
EIS cell analysis techniques Simultaneous multi-channel AC and DC measurements
DC/EIS cell analysis techniques AC Voltammetry
DC cell analysis techniques Low current DC electrochemical measurements using the ModuLab femto ammeter option
DC cell analysis techniques Fast scan voltammetry
DC cell analysis techniques Pulse Voltammetry
EIS cell analysis techniques Low Impedance EIS Tests
EIS cell analysis techniques High impedance electrochemical measurements using the ModuLab femto ammeter option
DC cell analysis techniques electrochemical noise
Measuring Adsorption Processes on Platinum Electrodes using the Solartron ModuLab Potentiostat
Non-linear system analysis: The application of Electrochemical Impedance Spectroscopy to the study of fuel cells and batteries operated under load
Characterization of fuel cells using Electrochemical Impedance Spectroscopy
EIS analysis techniques