| Butanol as a potential biofuel: A spectroscopic study of its blends with n-decane and diesel |
2018 |
Lampe AI, Dittmar AK, Heyen C, Kiefer J |
Fuel |
222 |
312-318 |
A5. ATR-MIR spectrometry |
DOI
|
| Calibration model transfer in mid-infrared process analysis with <i>in situ</i> attenuated total reflectance immersion probes |
2022 |
Parrott Andrew J., McIntyre Allyson C., Holden Megan, Colquhoun Gary, Chen Zeng-Ping, Littlejohn David, Nordon Alison |
Analytical Methods |
14 |
1889-1896 |
A5. ATR-MIR spectrometry, C2 Calibration transfer/model maintenance |
DOI
|
| Characterization of gasoline/ethanol blends by infrared and excess infrared spectroscopy |
2015 |
Corsetti S, Zehentbauer FM, McGloin D, Kiefer J |
Fuel |
141 |
136-142 |
A5. ATR-MIR spectrometry |
DOI
|
| Comparison of Individual and Integrated Inline Raman, Near-Infrared, and Mid-Infrared Spectroscopic Models to Predict the Viscosity of Micellar Liquids |
2020 |
Haroon Kiran, Arafeh Ali, Cunliffe Stephanie, Martin Philip, Rodgers Thomas, Mendoza Cesar, Baker Michael |
Applied Spectroscopy |
74 |
819-831 |
A5. ATR-MIR spectrometry, A3. Transmission NIR spectrometry/Raman spectrometry, D2 Multi-block, predictive and multi-scale modelling methods |
DOI
|
| Comparison of Raman and mid-infrared spectroscopy for quantification of nitric acid in PUREX-relevant mixtures |
2023 |
McFarlan Catriona, Nordon Alison, Sarsfield Mark, Taylor Robin, Chen Hongyan |
Progress in Nuclear Energy |
165 |
104898 |
A1. Non-invasive Raman spectrometry, A5. ATR-MIR spectrometry |
DOI
|
| Detection of counterfeit Scotch whisky samples using MIR spectrometry with an ATR probe incorporating polycrystalline silver halide fibres |
2011 |
McIntyre AC, Bilyk ML, Nordon A, Colquhoun G and Littlejohn D |
Analytica Chimica Acta |
690 |
228-233 |
A5. ATR-MIR spectrometry |
DOI
|
| Detection of counterfeit Scotch whisky using mid-infrared spectrometry with an attenuated total reflectance probe incorporating polycrystalline silver halide fibres |
2011 |
McIntyre AC, Bilyk ML, Nordon A, Colquhoun G and Littlejohn D |
Analytica Chimica Acta |
690 |
228-233 |
A5. ATR-MIR spectrometry |
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
|
| In-line monitoring of esterification using a miniaturised mid-infrared spectrometer |
2003 |
McGill C A, Ferguson R H, Donoghue K, Nordon A and Littlejohn D |
Analyst |
128 |
1467-1470 |
B1 Reaction monitoring, A5. ATR-MIR spectrometry |
DOI
|
| Investigating the feasibility of mid infrared spectroscopy for monitoring an industrial de-racemization biotransformation process |
2012 |
Gardner P, Arnold SA, Brown F, Carr R, Nordon A, Harvey LM and McNeil B. |
Analytica Chimica Acta, |
779 |
50-55 |
B3 Biological process analysis, A5. ATR-MIR spectrometry |
DOI
|
| Monitoring of an esterification reaction by on-line direct liquid sampling mass spectrometry and in-line mid infrared spectrometry with an attenuated total reflectance probe |
2014 |
Owen A W, McAulay E A J, Nordon A, Littlejohn D, Lynch T P, Lancaster S J, Wright R G |
Analytica Chimica Acta, |
14.08.2014 |
|
B1 Reaction monitoring, A5. ATR-MIR spectrometry, A8. Process mass spectrometry |
DOI
|
| Temperature Correction of Spectra to Improve Solute Concentration Monitoring by In Situ Ultraviolet and Mid-Infrared Spectrometries toward Isothermal Local Model Performance |
2022 |
Chong Magdalene W. S., McGlone Thomas, Chai Ching Yee, Briggs Naomi E. B., Brown Cameron J., Perciballi Francesca, Dunn Jaclyn, Parrott Andrew J., Dallin Paul, Andrews John, Nordon Alison, Florence Alastair J. |
Organic Process Research & Development |
|
|
C1 Multivariate data analysis, A5. ATR-MIR spectrometry |
DOI
|
| Toward Continuous Deracemization via Racemic Crystal Transformation Monitored by in Situ Raman Spectroscopy |
2019 |
Xiouras Christos, Belletti Giuseppe, Venkatramanan Raghunath, Nordon Alison, Meekes Hugo, Vlieg Elias, Stefanidis Georgios D., Ter Horst Joop H. |
Crystal Growth & Design |
19 |
5858-5868 |
A5. ATR-MIR spectrometry |
DOI
|