3D printed fluidics with embedded analytic functionality for automated reaction optimisation

Capel, Andrew J.; Wright, Andrew; Harding, Matthew J.; Weaver, George W.; Li, Yuqi; Harris, Russell A.; Edmondson, Steve; Goodridge, Ruth D.; Christie, Steven D.R.

doi:10.3762/bjoc.13.14

All Outputs (2)

Advanced reactor engineering with 3D printing for the continuous-flow synthesis of silver nanoparticles (2017)
Journal Article
Okafor, O., Weilhard, A., Fernandes, J. A., Karjalainen, E., Goodridge, R., & Sans, V. (2017). Advanced reactor engineering with 3D printing for the continuous-flow synthesis of silver nanoparticles. Reaction Chemistry and Engineering, 2(2), 129-136. https://doi.org/10.1039/c6re00210b

© 2017 The Royal Society of Chemistry. The implementation of advanced reactor engineering concepts employing additive manufacturing is demonstrated. The design and manufacturing of miniaturised continuous flow oscillatory baffled reactors (mCOBR) emp... Read More about Advanced reactor engineering with 3D printing for the continuous-flow synthesis of silver nanoparticles.

3D printed fluidics with embedded analytic functionality for automated reaction optimisation (2017)
Journal Article
Capel, A. J., Wright, A., Harding, M. J., Weaver, G. W., Li, Y., Harris, R. A., …Christie, S. D. (2017). 3D printed fluidics with embedded analytic functionality for automated reaction optimisation. Beilstein Journal of Organic Chemistry, 13, https://doi.org/10.3762/bjoc.13.14

Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the production of bespoke micro- and milliscale fluidic devices. When coupled with online monitoring and optimisation software, this offers an advanced, c... Read More about 3D printed fluidics with embedded analytic functionality for automated reaction optimisation.