High resolution 3D printed biocatalytic reactor core with optimized efficiency for continuous flow synthesis

Thumbnail
View/Open
Publication date
2025-01-13
Creators
Attwood, Simon J.
Metadata
Show full item record
Description
Data associated with publication: S.J. Attwood, D. Leech, Y. He, A. Croft, R. J.M. Hague, D.J. Irvine, R.D. Wildman, A. Pordea, High resolution 3D printed biocatalytic reactor core with optimized efficiency for continuous flow synthesis, Chemical Engineering Science (2024).
External URI
DOI
Related publication DOI
Subjects
  • Additive manufacturing
  • Three-dimensional printing
  • Biocatalysis
  • Colloids
  • Additive manufacturing, Projection micro-stereolithography, Biocatalysis, Hydrogels, Continuous flow synthesis
  • Engineering::Chemical, process & energy engineering::Chemical engineering
  • T Technology::TP Chemical technology
  • Q Science::QD Chemistry
Divisions
  • University of Nottingham, UK Campus::Faculty of Engineering::Department of Chemical and Environmental Engineering
Research institutes and centres
  • University of Nottingham, UK Campus::Centre for Additive Manufacturing
Deposit date
2025-01-13
Data type
Experimental spectrophotometer Data
Contributors
  • Wildman, Ricky D.
  • Pordea, Anca
Funders
  • Engineering & Physical Sciences Research Council
Grant number
  • EP/N024818/1
  • EP/W017032/1
Collection dates
  • 2021-2022
Data collection method
Tecan spark plate reader
Resource languages
  • en
Publisher
The University of Nottingham
CC-BY
Except where otherwise noted, this item's license is described as Creative Commons by Attribution