| A comparative investigation of two handheld near-ir spectrometers for direct forensic examination of fibres in-situ |
2021 |
Rashed Hamad S., Mishra Puneet, Nordon Alison, Palmer David S., Baker Matthew J. |
Vibrational Spectroscopy |
113 |
103205 |
A1. Non-invasive Raman spectrometry |
DOI
|
| A Mechanistic Investigation of the N-Hydroxyphthalimide Catalyzed Benzylic Oxidation Mediated by Sodium Chlorite |
2024 |
Grunshaw Thomas, Wood Susanna H., Sproules Stephen, Parrott Andrew, Nordon Alison, Shapland Peter D. P., Wheelhouse Katherine M. P., Tomkinson Nicholas C. O. |
The Journal of Organic Chemistry |
89 |
7933-7945 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Alternative Measurement Configurations for Extracting Bulk Optical Properties Using an Integrating Sphere Setup |
2017 |
Thennadil Suresh N., Chen Yi-chieh |
Applied Spectroscopy |
71 |
224-237 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Application of Raman Spectroscopy to Dynamic Binding Capacity Analysis |
2023 |
Beattie James W., Rowland-Jones Ruth C., Farys Monika, Bettany Hamish, Hilton David, Kazarian Sergei G., Byrne Bernadette |
Applied Spectroscopy |
77 |
1393-1400 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Automated cosmic spike filter optimized for process Raman spectroscopy |
2012 |
Mozharov S, Nordon A, Littlejohn D and Marquardt B |
Applied Spectroscopy |
66 |
1326-1333 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Automatic de-noising of close-range hyperspectral images with a wavelength-specific shearlet-based image noise reduction method |
2019 |
Mishra Puneet, Karami Azam, Nordon Alison, Rutledge Douglas N., Roger Jean-Michel |
Sensors and Actuators B: Chemical |
281 |
1034-1044 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Automatic de-noising of close-range hyperspectral images with a wavelength-specific shearlet-based image noise reduction method |
2019 |
Mishra Puneet, Karami Azam, Nordon Alison, Rutledge Douglas N., Roger Jean-Michel |
Sensors and Actuators B: Chemical |
281 |
1034-1044 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Automatic de-noising of close-range hyperspectral images with a wavelength-specific shearlet-based image noise reduction method |
2019 |
Mishra Puneet, Karami Azam, Nordon Alison, Rutledge Douglas N., Roger Jean-Michel |
Sensors and Actuators B: Chemical |
281 |
1034-1044 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Calibration free approaches for rapid polymorph discrimination <i>via</i> low frequency (THz) Raman spectroscopy |
2024 |
Chong Magdalene W. S., Ward Martin R., McFarlan Catriona, Parrott Andrew J., Dallin Paul, Andrews John, Oswald Iain D. H., Nordon Alison |
Chemical Communications |
|
|
C1 Multivariate data analysis, A1. Non-invasive Raman spectrometry |
DOI
|
| Close-range hyperspectral imaging of whole plants for digital phenotyping: Recent applications and illumination correction approaches |
2020 |
Mishra Puneet, Lohumi Santosh, Ahmad Khan Haris, Nordon Alison |
Computers and Electronics in Agriculture |
178 |
105780 |
C1 Multivariate data analysis, A1. Non-invasive Raman spectrometry |
DOI
|
| Comparison of calibration methods for the monitoring of fluorobenzene batch reaction using low-field F-19 NMR, H-1 NMR, NIR and raman spectrometries |
2002 |
Nordon A, Meunier C, McGill C A, Littlejohn D |
Applied Spectroscopy |
56 |
515-520 |
A1. Non-invasive Raman spectrometry, A6. Low field NMR spectrometry |
DOI
|
| Comparison of in-line NIR, Raman and UV-Visable spectrometries and at-line NMR spectrometry for the monitoring of an esterification reaction |
2002 |
McGill C A, Nordon A, Littlejohn D, |
Analyst |
127 |
287-292 |
A1. Non-invasive Raman spectrometry, A6. Low field NMR spectrometry |
DOI
|
| Comparison of non-invasive NIR and Raman spectrometries for determination of alcohol content of spirits |
2005 |
Nordon A, Mills A, Burn R T, Cusick F M and Littlejohn D |
Analytica Chimica Acta, |
548 |
148-158 |
A1. Non-invasive Raman spectrometry |
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
|
| Comparison of the determination of a low-concentration active ingredient in pharmaceutical tablets by backscatter and transmission Raman spectrometry |
2012 |
Townshend A, Nordon A, Littlejohn D, Myrick M, Andrews J and Dallin P |
Analytical Chemistry |
84 |
4671-4676 |
A1. Non-invasive Raman spectrometry, A3. Transmission NIR spectrometry/Raman 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
|
| 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
|
| Effect of Process Conditions on Particle Size and Shape in Continuous Antisolvent Crystallisation of Lovastatin |
2020 |
McGinty John, Chong Magdalene W. S., Manson Andrew, Brown Cameron J., Nordon Alison, Sefcik Jan |
Crystals |
10 |
925 |
A1. Non-invasive Raman spectrometry, C1 Multivariate data analysis |
DOI
|
| Enantioselective Raman spectroscopy (esR) for distinguishing between the enantiomers of 2-butanol |
2018 |
Rullich CC, Kiefer J |
Analyst |
143 |
|
A1. Non-invasive Raman spectrometry |
DOI
|
| Exploring the stability and repeatability of a hollow core fibre Raman gas sensor |
2019 |
Partridge Matthew C., Davidson Ian A., Brooks William, Foster Michael, Bradley Thomas D., Hayes John R., Jasion Greg T., Petrovich Marco N., Poletti Francesco, Richardson David J., Wheeler Natalie V. |
Seventh European Workshop on Optical Fibre Sensors |
|
|
A1. Non-invasive Raman spectrometry |
DOI
|
| Extraction of Chemical Information of Suspensions Using Radiative Transfer Theory to Remove Multiple Scattering Effects: Application to a Model Two-Component System |
2009 |
Steponavicius Raimundas, Thennadil Suresh N. |
Analytical Chemistry |
81 |
7713-7723 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Fusing spectral and textural information in near-infrared hyperspectral imaging to improve green tea classification modelling |
2019 |
Mishra Puneet, Nordon Alison, Mohd Asaari Mohd Shahrimie, Lian Guoping, Redfern Sally |
Journal of Food Engineering |
249 |
40-47 |
A1. Non-invasive Raman spectrometry |
DOI
|
| High-Throughput Raman Spectroscopy Combined with Innovate Data Analysis Workflow to Enhance Biopharmaceutical Process Development |
2020 |
Goldrick Stephen, Umprecht Alexandra, Tang Alison, Zakrzewski Roman, Cheeks Matthew, Turner Richard, Charles Aled, Les Karolina, Hulley Martyn, Spencer Chris, Farid Suzanne S. |
Processes |
8 |
1179 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Improved method for kinetic studies in microreactors using flow manipulation and non-invasive Raman spectrometry |
2011 |
Mozharov S, Nordon A, Littlejohn D, Wiles C, Watts P, Dallin P and Girkin JM |
Journal of the American Chemical Society |
133 |
3601-3608 |
A1. Non-invasive Raman spectrometry, B1 Reaction monitoring, B4 Microreactors and flow chemistry, D1 Kinetic modelling |
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
|
| Near-infrared hyperspectral imaging for non-destructive classification of commercial tea products |
2018 |
Mishra Puneet, Nordon Alison, Tschannerl Julius, Lian Guoping, Redfern Sally, Marshall Stephen |
Journal of Food Engineering |
238 |
70-77 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Non-invasive analysis in micro-reactors using Raman spectrometry with a specially designed probe |
2010 |
Mozharov S, Nordon A, Girkin JM and Littlejohn D |
Lab on a Chip |
10 |
2101-2107 |
A1. Non-invasive Raman spectrometry, B1 Reaction monitoring, B4 Microreactors and flow chemistry |
DOI
|
| Non-invasive monitoring of the growth of metal-organic frameworks (MOFs) <i>via</i> Raman spectroscopy |
2023 |
Chong Magdalene, Parrott Andrew John, Ashworth David, Fletcher Ashleigh J., Nordon Alison |
Physical Chemistry Chemical Physics |
|
|
B1 Reaction monitoring, A1. Non-invasive Raman spectrometry |
DOI
|
| Numerical model for predicting experimental effects in enantioselective Raman spectroscopy |
2017 |
Jungst N, Williamson AP, Kiefer J, |
Applied Physics B |
123, 128 |
15 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Polymer Pellet Fabrication for Accurate THz-TDS Measurements |
2022 |
Murphy Keir N., Naftaly Mira, Nordon Alison, Markl Daniel |
Applied Sciences |
12 |
3475 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Quantitative In Situ Monitoring of Parahydrogen Fraction Using Raman Spectroscopy |
2018 |
Parrott Andrew J., Dallin Paul, Andrews John, Richardson Peter M., Semenova Olga, Halse Meghan E., Duckett Simon B., Nordon Alison |
Applied Spectroscopy |
|
000370281879864 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Remote sensing of chemical agents within nuclear facilities using Raman spectroscopy |
2020 |
Foster Michael, Wharton Michael, Brooks William, Goundry Matthew, Warren Charles, Storey Jonathan |
Journal of Raman Spectroscopy |
51 |
2543-2551 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Simultaneous acquisition of the polarized and deploarized Raman signal with single detector |
2017 |
Kiefer J |
Analytical Chemistry |
89 |
5725-5728 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Spatially and angularly resolved spectroscopy for in-situ estimation of concentration and particle size in colloidal suspensions |
2017 |
Chen Yi-Chieh, Foo David, Dehanov Nicolau, Thennadil Suresh N |
Analytical and Bioanalytical Chemistry |
409 |
6975-6988 |
A1. Non-invasive Raman spectrometry, C1 Multivariate data analysis, D2 Multi-block, predictive and multi-scale modelling methods |
DOI
|
| Spatially and angularly resolved spectroscopy for in-situ estimation of concentration and particle size in colloidal suspensions |
2017 |
Chen Yi-Chieh, Foo David, Dehanov Nicolau, Thennadil Suresh N. |
Analytical and Bioanalytical Chemistry |
409 |
6975-6988 |
A1. Non-invasive Raman spectrometry |
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
|
| 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 |
A1. Non-invasive Raman spectrometry |
DOI
|
| Universal enantiomeric discrimination by Raman spectroscopy |
2015 |
Kiefer J, Noack K |
Analyst |
140 |
1787-1790 |
A1. Non-invasive Raman spectrometry |
DOI
|