AN21 Double mixing stopped-flow using interrupted flow method . Stopped Flow/Rapid Kinetics
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Double mixing stopped-flow using interrupted flow method – SFM-2000 seriesRapid kinetics – Application Note 21
Precise control of flow rate – SFM-2000 series -Rapid kinetics – Application Note 17
AN17. Precise control of flow rate. Stopped Flow/Rapid Kinetics
Stopped-flow in cryogenic conditions – SFM-2000 series – Rapid kinetics – Application Note 25
AN25 Stopped Flow, Stopped-flow in cryogenic conditions. Rapid Kinetics
High precision mixing ratios – SFM-2000 series – Rapid kinetics – Application Note 18
AN18. High precision mixing ratios. Stopped Flow/Rapid Kinetics
RK-Spectro Technical Note 73: Determination of your experimental dead time in fluorescence mode using μFC-08 and SFM-4000/S
Determination of your experimental dead time in fluorescence mode using μFC-08 and SFM-4000/S
High precision volume delivery – SFM-2000 series – Rapid kinetics – Application Note 16
AN16. High precision volume delivery. Stopped Flow/Rapid Kinetics
Membrane transport kinetics as measured by stopped-flow – SFM 2000 Series- µSFM- Rapid Kinetics – Application Note 35
AN35 Membrane transport kinetics as measured by stopped-flow
Submicrosecond dead time determination – SFM-2000 series – Rapid kinetics – Application Note 15
AN15. Submicrosecond dead time determination. Stopped Flow/Rapid Kinetics
Wide temperature range control -SFM-2000 series – Rapid kinetics – Application Note 20
AN20 Wide temperature range control -SFM-2000 series. Stopped Flow/Rapid Kinetics
Automatic concentration dependance studies – SFM-2000 series – Rapid kinetics – Application Note 19
AN19. Automatic concentration dependance studies. Stopped Flow/Rapid Kinetics
DC and AC characterization of a Vanadium Redox Flow Battery (VRFB) using a Pinflow 20 cm² test lab cell Battery – Application Note 71
The characterization of Vanadium Redox Battery Cells using BioLogic BCS-815 battery cyclers & a Pinflow® 20 cm² test cell.
QFM-4000 brochure
The advanced design of the QFM-4000 allows the measurement of chemical reaction rates from a few milliseconds to many minutes
RK-Spectro Technical Note 44: Pulsed flow method for Quench flow experiment
Pulsed flow method for Quench flow experiment
Effect of channel dimensions of serpentine flow fields on the performance of a vanadium redox flow battery
CITATION: Ravendra Gundlapalli, Sreenivas Jayanti⁎
RK-Spectro Technical Note 54: Determination of your experimental dead time in fluorescence mode
Determination of your experimental dead time in fluorescence mode
RK-Spectro Technical Note 32: SFM-20 used in anaerobic conditions and the loading of instruments
SFM-20 used in anaerobic conditions and the loading of instruments
RK-Spectro Technical Note 85: SFM-X000 used in anaerobic conditions_ loading of instrument
SFM-X000 used in anaerobic conditions_ loading of instrument
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
Mechanistic Insights into Superoxide Dismutation Driven by Dinuclear Manganese Complexes: The Role of the Mn2-Core
CITATION: Andrea Squarcina*, Dominik Fehn, Andreas Scheitler, Laura Senft, Alicja Franke, Achim Zahl, Ralph Puchta, Karsten Meyer, and Ivana Ivanović-Burmazović*
Measurement of electrochromic bandshift at 520 nm with real-time scatter correction at 546 nmLife Sciences – Application Note 4
AN#4 JTS, Photosynthesis Measurement of electrochromic bandshift at 520 nm with real-time scatter correction at 546 nm
Reductants fuel lytic polysaccharide monooxygenase activity in a pH-dependent manner
CITATION: Ole Golten, Iván Ayuso-Fernández, Kelsi R. Hall, Anton A. Stepnov, Morten Sørlie, Åsmund Kjendseth Røhr, Vincent G. H. Eijsink
RK-Spectro Technical Note 03: Installation of SFM 20 on the J810 spectropolarimeter
Installation of SFM 20 on the J810 spectropolarimeter
RK-Spectro Technical Note 46: Installation of SFM-X00 on the J810 spectropolarimeter
Installation of SFM-X00 on the J810 spectropolarimeter
RK-Spectro Technical Note 52: Designing double mixing quench flow experiments
Designing double mixing quench flow experiments
Entropic barrier of water permeation through single-file channels
CITATION: Johann Wachlmayr, Gotthold Fläschner, Kristyna Pluhackova, Walter Sandtner, Christine Siligan & Andreas Horner
SFM maintenance video
A general purpose video giving information relating to the maintenance of the SFM range of products
Cyclic electron flow in C3 plants – Photosynthesis – Application Note 3
AN 3. Cyclic electron flow in C3 plants. Spectroscopy
Measuring Intracellular Ca Changes in Human Sperm using Four Techniques: Conventional Fluorometry, Stopped Flow Fluorometry, Flow Cytometry and Single Cell Imaging
CITATION: Esperanza Mata-Martínez, Omar José, Paulina Torres-Rodríguez, Alejandra Solís-López, Ana A. Sánchez-Tusie, Yoloxochitl, Sánchez-Guevara, Marcela B. Treviño, and Claudia L. Treviño
Enzyme Kinetics above Denaturation Temperature: A Temperature-Jump/Stopped-Flow Apparatus
CITATION: Bálint Kintses, Zoltán Simon,Máté Gyimesi, Júlia Tóth, Balázs Jelinek, Csaba Niedetzky, Mihály Kovács András Málnási-Csizmadia
Levich and Koutecký-Levich analysis tools: Electrochemical reaction kinetics measurement Kinetics – Application Note 56
AN56. Levich Koutecky Levich. Electrochemistry
RK-Spectro Technical Note 18: Create a stopped-flow sequence using MPS32 software
Create a stopped-flow sequence using MPS32 software
Pore selectivity analysis of an aquaglyceroporin by stopped-flow spectrophotometry on bacterial cell suspensions
CITATION: Jean-Francois Hubert, Laurence Duchesne, Christian Delamarche, Amaury Vaysse, Herve Gueune and Celine Ragúenes-Nicol
An advanced EPR stopped-flow apparatus based on a dielectric ring resonator
CITATION: Günter Lassmann, Peter Paul Schmidt, WolfgangLubitz
IMVS investigation on photovoltaic cell (IMVS) Photovoltaics – Application Note 30
AN30 IMVS - Electrochemistry & Photovoltaic, Electrochemistry
Stopped-flow in the mid-IR using dual comb spectroscopy – AN38
Obtain very fast reaction speeds by combining stopped flow with dual comb spectrometers.
RK-Spectro Technical Note 34: Design of stopped flow sequence, determination of minimum washing volume
Design of stopped flow sequence, determination of minimum washing volume