This Folder contains Supplementary Information for the publication described below. The Supplementary Information compromises the analysed data provided in the PDF-file, as well as the raw data.

------------------------------------------------------------
Publication Information
------------------------------------------------------------

Title:
Experimental studies on microscopic, multiphase transport phenomena: Novel applications of light sheet fluorescence microscopy

Keywords:
LSFM, SPIM, PLIF, mass transfer

Authors:

Lotta Kursula - 0009-0006-6587-2709
Institute of Multiphase Flows, Hamburg University of Technology, Hamburg, Germany 

Felix Kexel - 0000-0003-4268-2348
Institute of Multiphase Flows, Hamburg University of Technology, Hamburg, Germany  

Marko Hoffmann
Institute of Multiphase Flows, Hamburg University of Technology, Hamburg, Germany  

Niklas-Maximilian Epping - 0000-0002-7348-4566
Institute of Technical Biocatalysis, Hamburg University of Technology, Hamburg, Germany 

Paul Bubenheim - 0000-0001-6954-4274
Institute of Technical Biocatalysis, Hamburg University of Technology, Hamburg, Germany 

Koichi Terasaka - 0000-0002-9978-5463
Department of Applied Chemistry, Faculty of Science an Technology, Keio University, Yokohama, Japan

Andreas Liese - 0000-0002-4867-9935
Institute of Technical Biocatalysis, Hamburg University of Technology, Hamburg, Germany  

Michael Schlüter - 0000-0001-5969-2150
Institute of Multiphase Flows, Hamburg University of Technology, Hamburg, Germany  



DOI of publication: https://doi.org/10.1007/s12650-026-01115-7
DOI of data supplement: https://doi.org/10.15480/882.16054
License: Public Domain Mark 1.0 Universal

Abstract of the paper: Over the past two decades, light sheet fluorescence microscopy has developed to a powerful tool for studies of dynamics in biological systems. In a new development, we apply light sheet fluorescence microscopy as a novel experimental measurement technology within the field of multiphase process engineering and fluid dynamics. The technology enables a number of novel studies of single- and multiphase transport phenomena on a microscopic scale. In the current publication, we introduce the first implementation of light sheet fluorescence microscopy in the field and demonstrate its applicability on one exemplary measurement of diffusive oxygen mass transfer from an oxygen bubble to degassed water. The results prove that such measurements can be conducted with a high spatial resolution with a submicron pixel pitch and enable precise studies on microscopic transport phenomena. Besides measurements of mass transfer, on which we lay the focus here, light sheet fluorescence microscopy further enables studies of fluid dynamics on a microscopic scale.


------------------------------------------------------------
Data Information
------------------------------------------------------------

S1

This PDF-file contains the visualisaton of the analyse data and supporting explanations.

Data

This Folder contains the raw data for the data analysis described in S1.

	01_Data_Heat_convection

	This folder contains the raw images (.tiff, 12-bit) from the PIV measurements introduced in S1. The subfolder names reference to which subfigure 	of Figure 1 in S1 the data belongs to.

	02_Photobleaching

	This folder contains the raw images (.tiff, 12-bit) from the LIF measurements introduced in S1. The subfolder names reference to which data points 	in Figure 2 in S1 the data belongs to.