AN 4. Potentiostat stability - Electrochemistry & Battery. Electrochemistry
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The mystery of potentiostat stability explained (Potentiostat stability) Battery – Application Note 4
EC-Lab Technical Notes 01: VMP, VMP2, MPG or BiStat IP address change
EC-Lab Technical Notes 01VMP, VMP2, MPG or BiStat IP address change
Equivalent model of electrochemical cell inc. ref. electrode impedance and potentiostat parasitics Battery – Application Note 44
AN44. EIS artifacts precautions. Electrochemistry
CpeS Is a Lyase Specific for Attachment of 3Z-PEB to Cys82 of β-phycoerythrin from Prochlorococcus marinus MED4
CITATION: Jessica Wiethaus,Andrea W. U. Busch, Klaus Kock, Lars I. Leichert, Christian Herrmann and Nicole Frankenberg-Dinkel
Application of the bipotentiostat to an experiment with a Rotating Ring-Disk Electrode (RRDE bipot) Battery – Application Note 7
AN7 RRDE bipot - Electrochemistry
A comprehensive solution to address battery module/pack Energy Storage – Application Note 59
AN59. Pack fuel cell/ stack module battery. Electrochemistry
EC-Lab Technical Notes 02 Accessing the VMP, VMP2, MPG or BiStat from other networks through gateways
EC-Lab Technical Notes 02 Accessing VMP, VMP2, MPG or BiStat from other networks through gateways
EC-Lab Technical Notes 04: VMP2, VMP or MPG firmware upgrading
EC-Lab Technical Notes 04 firmware upgrading
UV-Visible spectroscopy & electrochemistry coupling: Spectroelectrochemisty on polypyrrol film Electrochemisty – Application Note 12
AN12. Spectroelectrochemistry. Electrochemistry
Your new potentiostat: unboxing, setup and settings for your first measurement
Support videos to guide you through the setup process for your new BioLogic potentiostat
EC-Lab Technical Notes 25b: Control of the potential/current signal by an external device Part II : control by a channel of the potentiostat
EC-Lab Technical Notes 25b Control of the potential/current signal by an external device Part II : control by a channel of the potentiostat
MT-Lab Technical Notes-07: Temperature calibration of a potentiostat board with an ITS
MT-Lab TN-07: Temperature calibration of a potentiostat board with an ITS TN#07 Materials Science
EC-Lab Technical Notes 40: Influence of the current range on the response time of a potentiostat
EC-Lab Technical Notes 40 Influence of the current range on potentiostat response time
Instrument & Quartz Crystal Microbalance (QCM) coupling: Mass measurement during polypyrrol film deposition Electrochemistry – Application Note 13
AN13. eQCM - Electrochemistry. Electrochemistry
EC-Lab Technical Notes 24: Potentiostat board installation on SP-300 chassis (BiPotentiostat option)
EC-Lab Technical Notes 24 Potentiostat board installation on SP-300
Battery cycling with reference electrodes using the PAT-cell test cell Battery – Application Note 58
AN58. Reference electrode. Electrochemistry
Essential Potentiostat Range
Brochure detailing the full Essential range of BioLogic potentiostat / galvanostats
Premium Potentiostat Range
Brochure detailing the full Premium range of BioLogic potentiostat / galvanostats
A High-Performance Electrocatalyst Based on Hybrid Nife-Pyromellitic Acid for Oxygen Evolution Reaction
CITATION: Lin Li, Guoqi Li, Wenlong Li, Fusheng Li, Chunze Yuan, Nian Zhang, Hui Zhang, Tsu-Chien Weng
EIS measurements on a RDE Part I: Determination of a diffusion coefficient using the new element Winf Electrochemistry – Application Note 66
AN 66. RDE diffusion. Electrochemistry
Multi Pitting Corrosion (Pitting) Corrosion – Application Note 25
AN 25, Pitting - Corrosion, Electrochemistry
Electrochemical Noise Measurements Part I: ASTM assessment and validation of instrumental noise Corrosion – Application Note 39-1
AN 39-1. Electrochemical noise measurement ENA ASTM #1 .Electrochemistry
IMVS investigation on photovoltaic cell (IMVS) Photovoltaics – Application Note 30
AN30 IMVS - Electrochemistry & Photovoltaic, Electrochemistry
In situ measurements for shrinking/dilation in energy storage devices during cycling Battery – Application Note 46
AN46. Dilatometer - Electrochemistry & Battery. Electrochemistry
Determination of the diffusion coefficient of an inserted species in a host electrode with EIS, PITT and GITT techniques Battery – Application Note 70
This application note shows the various relationships and methods needed to extract the diffusion coefficient of an inserted species into a host electrodes using Electrochemical Impedance Spectroscopy (EIS), Potentiostatic Intermittent Titermittent Technique (PITT) and Galvanostatic Intermittent Titration technique (GITT). The main results are that when the system is composed of several charge transfer resistances and double layer capacitances, only EIS can simply lead to the diffusion time constants and hence diffusion coefficients.
EC-Lab Technical Notes 27: SAM-50 : Module for measurements on stack of 50V
EC-Lab Technical Notes 27 SAM-50 : Module for measurements on stack of 50V
EC-Lab Technical Notes 42: Bistat3200: A guide to the use of the sync start macro
EC-Lab Technical Notes 42. Bistat3200: sync start macro
Precautions for good impedance measurements (EIS) Battery & Electrochemistry – Application Note 5
AN5. EIS precautions - Electrochemistry & Battery. Electrochemistry
Sensor pulsed techniques: SWV, DPV & NPV Electroanalysis & Electrochemistry Sensor – Application Note 67
AN67. Sensor pulsed techniques: SWV, DPV & NPV Electrochemistry.
Photosynthesis Technical Notes 01: Use of Eukaryote Kit in Absorbance mode – ECS measurement with PSI excitation
Use of Eukaryote Kit in Absorbance mode – ECS measurement with PSI excitation
Simultaneous impedance measurements elements of a running cell stack in EC-Lab® Express (EIS pack) Battery – Application Note 16
AN16. EIS pack - Electrochemistry & Battery. Electrochemistry
Electrochemical Noise Measurements Part III: Determination of the noise resistance Rn Corrosion – Application Note 39-3
AN 39-3. Electrochemical noise measurement ENA ASTM #3. Electrochemistry
EC-Lab Technical Notes 44: How to check the accuracy of your instrument?
EC-Lab Technical Notes 44: How to check the accuracy of your instrument ?
Enhanced rate capabilities in a glass-ceramic-derived sodium all-solid-state battery
CITATION: Hideo Yamauchi, Junichi Ikejiri, Kei Tsunoda, Ayumu Tanaka, Fumio Sato, Tsuyoshi Honma & Takayuki Komatsu
Benchmarking the performance of all-solid-state lithium batteries
CITATION: Simon Randau, Dominik A. Weber, Olaf Kötz, Raimund Koerver, Philipp Braun, André Weber, Ellen Ivers-Tiffée, Torben Adermann, Jörn Kulisch, Wolfgang G. Zeier, Felix H. Richter & Jürgen Janek
Impact of the Solid Electrolyte Particle Size Distribution in Sulfide-Based Solid-State Battery Composites
CITATION: Eva Schlautmann, Alexander Weiß, Oliver Maus, Lukas Ketter, Moumita Rana, Sebastian Puls, Vera Nickel, Christine Gabbey, Christoph Hartnig, Anja Bielefeld, Wolfgang G. Zeier
Cold-Starting All-Solid-State Batteries from Room Temperature by Thermally Modulated Current Collector in Sub-Minute
CITATION: Yusheng Ye, Wenxiao Huang, Rong Xu, Xin Xiao, Wenbo Zhang, Hao Chen, Jiayu Wan, Fang Liu, Hiang Kwee Lee, Jinwei Xu, Zewen Zhang, Yucan Peng, Hansen Wang, Xin Gao, Yecun Wu, Guangmin Zhou, Yi Cui
Influence of Microstructure on the Material Properties of LLZO Ceramics Derived by Impedance Spectroscopy and Brick Layer Model Analysis
CITATION: Janis K. Eckhardt*, Sascha Kremer*, Till Fuchs, Philip Minnmann, Johannes Schubert, Simon Burkhardt, Matthias T. Elm, Peter J. Klar, Christian Heiliger*, and Jürgen Janek*
Proton-Conducting Graphene Membrane Electrode Assembly for High Performance Hydrogen Fuel Cells
CITATION: Ravikumar Thimmappa, Manu Gautam, Mruthyunjayachari Chattanahalli Devendrachari, Alagar Raja Kottaichamy, Zahid Manzoor Bhat, Ahmed Umar, and Musthafa Ottakam Thotiyl*
Ag-Cu Nanoparticles as Cathodic Catalysts for an Anion Exchange Membrane Fuel Cell
CITATION: Mara Beltrán-Gastélum, Samantha Goretti Portillo-Fuentes, José Roberto Flores-Hernández, Moisés Israel Salazar-Gastélum, Balter Trujillo-Navarrete, Tatiana Romero-Castañón, Carolina Silva-Carrillo, Edgar Alonso Reynoso-Soto and Rosa María Félix-Navarro*
EC-Lab Technical Notes 25a: Control of the potential/current signal by an external device Part I : control by a Low Frequency Generator (LFG)
EC-Lab Technical Notes Part I : control by a Low Frequency Generator (LFG)
Inaccuracy of corrosion current determination in presence of ohmic drop Corrosion – Application Note 48
AN48. Ohmic drop - Electrochemistry & Corrosion. Electrochemistry
UFS-SEC: SpectroElectrochemical Cell for UV-Vis, NIR and IR measurement Spectroelectrochemistry – Application Note 52
AN52. Spectroelectrochemistry. Electrochemistry
Electronic conductivity measurement – DC/AC methods Material Science – Application Note 3
AN 3. Electronic conductivity measurement using DC and AC method. Materials Science
EC-Lab Technical Notes 26: How to configure an experiment with a platinum temperature probe?
EC-Lab Technical Notes 26. TN26. Electrochemistry, Platinum temperature probe configuration
EC-Lab Technical Notes 32: How to set the data recording conditions of my measurement?
EC-Lab Technical Notes 32 Setting data recording conditions
Protocols for studying intercalation electrodes materials- I: Galvanostatic cycling/potential limitations (GCPL) GITT Battery – Application Note 1
AN 1. GITT - Electrochemistry & Battery Application. Electrochemistry