Dataset for - Continuous Production of Cellulose Microbeads via Membrane Emulsification

Primary data relevant to figures 3 and 4 in the quoted references (10.1021/acssuschemeng.7b00662). The data for figure 3 consists of laser scattering data expressed as volume percents consisting of three runs per sample. The data for figure 4 is mechanical compression data detailing the force required to compression a sample by a certain percentage.

Agri-environmental science
Biomolecules and biochemistry
Catalysis and surfaces
Materials processing

Cite this dataset as:
Coombs O'Brien, J., 2017. Dataset for - Continuous Production of Cellulose Microbeads via Membrane Emulsification. Bath: University of Bath Research Data Archive. Available from:


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James Coombs O'Brien
University of Bath


Janet L Scott
University of Bath

Davide Mattia
University of Bath

Laura Torrente-Murciano
University of Bath

University of Bath
Rights Holder


Collection date(s):

From 30 September 2014 to 31 May 2017


Data collection method:

The data represented in figure 3 was collected via particle sizing of the formed aqueous microbead dispersions. Each sample was subject to three data collection runs and an average take. The data is expressed as a volume percent. The mechanic compression data collected to produce figure 4 was produced from 10 repeats on beaded samples of varying crosslinking.

Data processing and preparation activities:

All data was processed in excel 2016


Engineering and Physical Sciences Research Council (EPSRC)

Doctoral Training Centre in Sustainable Chemical Technologies

Publication details

Publication date: 7 June 2017
by: University of Bath

Version: 1


URL for this record:

Related papers and books

Coombs OBrien, J., Torrente-Murciano, L., Mattia, D., and Scott, J. L., 2017. Continuous Production of Cellulose Microbeads via Membrane Emulsification. ACS Sustainable Chemistry & Engineering, 5(7), 5931-5939. Available from:

Contact information

Please contact the Research Data Service in the first instance for all matters concerning this item.

Contact person: James Coombs O'Brien


Faculty of Engineering & Design
Chemical Engineering

Faculty of Science