| A Mechanistic and Cautionary Case Study on the Use of Alternating Potential in Electrochemical Reactions |
2020 |
Wills Alfie G., Poole Darren L., Alder Catherine M., Reid Marc |
ChemElectroChem |
7 |
2771-2776 |
B2 Monitoring of drying and powder blending |
DOI
|
| Computer Vision for Kinetic Analysis of Lab- and Process-Scale Mixing Phenomena |
2022 |
Barrington Henry, Dickinson Alan, McGuire Jake, Yan Chunhui, Reid Marc |
Organic Process Research & Development |
26 |
3073-3088 |
B2 Monitoring of drying and powder blending |
DOI
|
| Computer vision for non-contact monitoring of catalyst degradation and product formation kinetics |
2023 |
Yan Chunhui, Cowie Megan, Howcutt Calum, Wheelhouse Katherine M. P., Hodnett Neil S., Kollie Martin, Gildea Martin, Goodfellow Martin H., Reid Marc |
Chemical Science |
14 |
5323-5331 |
B2 Monitoring of drying and powder blending |
DOI
|
| Development of a gas-phase Raman instrument using a hollow core anti-resonant tubular fibre |
2021 |
Brooks William S.M., Partridge Matthew, Davidson Ian A.K., Warren Charles, Rushton George, Large Joseph, Wharton Michael, Storey Jonathan, Wheeler Natalie V., Foster Michael J. |
Journal of Raman Spectroscopy |
52 |
1772-1782 |
B2 Monitoring of drying and powder blending, B3 Biological process analysis, B4 Microreactors and flow chemistry, B1 Reaction monitoring, A1. Non-invasive Raman spectrometry, A5. ATR-MIR spectrometry |
DOI
|
| Development of a spatially offset Raman spectroscopy probe for monitoring pharmaceutical drying |
2023 |
Al-Attili Mais, Ferreira Carla, Price Chris, Faulds Karen, Chen Yi-Chieh |
Chemical Engineering Research and Design |
192 |
510-520 |
B2 Monitoring of drying and powder blending, A1. Non-invasive Raman spectrometry, C1 Multivariate data analysis |
DOI
|
| Effects of particle size and cohesive properties on mixing studied by non-contact NIR |
2008 |
Bellamy LJ, Nordon A and Littlejohn D |
Int. J. Pharm |
361 |
87-91 |
A2 Particle size effects in Raman and NIR, B2 Monitoring of drying and powder blending |
DOI
|
| In situ monitoring of powder blending by non-invasive Raman spectrometry with wide area illumination |
2013 |
Allan P, Bellamy L, Nordon A, Littlejohn D, Andrews J and Dallin P |
Journal of Pharmaceutical and Biomedical Analysis |
76 |
28 - 35 |
A1. Non-invasive Raman spectrometry, B2 Monitoring of drying and powder blending |
DOI
|
| Investigation of factors affecting isolation of needle-shaped particles in a vacuum agitated filter drier through non-invasive measurements by Raman spectometry |
2013 |
Hamilton P, Littlejohn D, Nordon A, Sefcik J, Slavin P, J Andrews and Dallin P |
Chemical Engineering Science |
101 |
878-885 |
A1. Non-invasive Raman spectrometry, B2 Monitoring of drying and powder blending |
DOI
|
| Machine learning and metabolic modelling assisted implementation of a novel process analytical technology in cell and gene therapy manufacturing |
2023 |
Williams Thomas, Kalinka Kevin, Sanches Rui, Blanchard-Emmerson Greg, Watts Samuel, Davies Lee, Knevelman Carol, McCloskey Laura, Jones Peter, Mitrophanous Kyriacos, Miskin James, Dikicioglu Duygu |
Scientific Reports |
13 |
|
B2 Monitoring of drying and powder blending, D2 Multi-block, predictive and multi-scale modelling methods |
DOI
|
| Non-invasive monitoring of the mixing of pharmaceutical powders by broadband acoustic emission |
2010 |
Allan P, Ballamy LJ, Nordon A and Littlejohn D |
Analyst |
135 |
518-524 |
B2 Monitoring of drying and powder blending, A7. Ultrasonics and acoustic emission spectrometry |
DOI
|
| Real-time monitoring of powder mixing in a convective blender using non-invasive reflectance NIR spectrometry |
2008 |
Bellamy LJ, Nordon A and Littlejohn D |
Analyst |
133 |
58-64 |
A2 Particle size effects in Raman and NIR, B2 Monitoring of drying and powder blending |
DOI
|
| Studies of particle drying using non-invasive Raman spectrometry and particle size analysis |
2011 |
Hamilton P, Littlejohn D, Nordon A, Sefcik J, Slavin P, Dallin P and Andrews J |
Analyst |
136 |
2168-2174 |
A1. Non-invasive Raman spectrometry, B2 Monitoring of drying and powder blending |
DOI
|
| Teaching old presumptive tests new digital tricks with computer vision for forensic applications |
2023 |
Bugeja Nathalie, Oliver Cameron, McGrath Nicole, McGuire Jake, Yan Chunhui, Carlysle-Davies Felicity, Reid Marc |
Digital Discovery |
2 |
1143-1151 |
B2 Monitoring of drying and powder blending |
DOI
|
| Validity of particle size analysis techniques for measurement of the attrition that occurs during vacuum agitated powder drying of needle-shaped particles |
2012 |
Hamilton P, Littlejohn D, Nordon A, Sefcik J and Slavin P |
Analyst |
137 |
118 - 125 |
B2 Monitoring of drying and powder blending |
DOI
|