| 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
|
| A theoretical investigation of chirp insonifcation of ultrasound contrast agents |
2011 |
Barlow E, Mulholland AJ, Gachagan A and Nordon A |
Ultrasonics |
51 |
725-733 |
A7. Ultrasonics and acoustic emission spectrometry |
DOI
|
| Alternative measurement configurations for extracting bulk optical properties using an integrating sphere setup |
2017 |
Thennadil N Suresh, Chen Yi-chieh |
Appl. Spectrosc. |
Vol 71 Issue 2 |
224-237 |
A4. Scattering and radiative transfer theory for NIR |
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
|
| Alternative measurement configurations for extracting bulk optical properties using an integrating sphere set-up, |
2017 |
Thennadeil S N, Chen Y-C |
Applied Spectroscopy |
71 |
224 |
A3. Transmission NIR spectrometry/Raman spectrometry, A4. Scattering and radiative transfer theory for NIR |
DOI
|
| Analysis of the Rayleigh-Plesset equation with chirp excitation |
2009 |
Barlow E, Mulholland AJ, Gachagan A, Nordon A and Macpherson KG |
IMA J. Appl. Math. |
74 |
20-34 |
A7. Ultrasonics and acoustic emission 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
|
| 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 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
|
| 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
|
| Calibration of ultrasonic hardware for enhanced total focusing method imaging |
2020 |
Ingram M, Gachagan A, Nordon A, Mulholland A J, Hegarty M |
Insight - Non-Destructive Testing and Condition Monitoring |
62 |
408-415 |
A7. Ultrasonics and acoustic emission spectrometry |
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
|
| 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 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 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
|
| Consideration of some sampling problems in the on-line analysis of batch processes by low-field NMR spectrometry |
2008 |
Nordon A, Diez-Lazaro A, Wong CWL, McGill CA, Littlejohn D, Weerasinghe M, Mamman DA, Hitchman ML and Wilkie J |
Analyst |
133 |
339-347 |
B1 Reaction monitoring, A6. Low field NMR spectrometry |
DOI
|
| Dependence of signal on depth in transmission raman spectroscopy |
2011 |
Matousek P, Everall N, Littlejohn D, Nordon A, Bloomfield M |
Applied Spectroscopy |
Vol 65, No 7, 07.2011 |
724-733 |
A3. Transmission NIR spectrometry/Raman 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
|
| Determination of Bubble Size Distribution Using Ultrasound Array Imaging |
2020 |
Ingram Marcus, Mineo Carmelo, Gachagan Anthony, Mulholland Anthony J., Nordon Alison, Hegarty Martin |
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control |
67 |
1424-1437 |
A7. Ultrasonics and acoustic emission spectrometry |
DOI
|
| Determination of Ethylene Oxide Content of Polyether Polyols by Low-Field 1H Nuclear Magnetic Resonance Spectrometry |
2002 |
Nordon A, Meunier C, Carr R H, Gemperline P J, and Littlejohn D |
Analytica Chimica Acta, |
472 |
133-140 |
A6. Low field NMR 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 particle properties of powders on the generation and transmission of Raman scattering |
2012 |
Townshend A, Nordon A, Littlejohn D, Andrews J and Dallin P |
Analytical Chemistry |
84 |
4665-4670 |
A2 Particle size effects in Raman and NIR, A3. Transmission NIR spectrometry/Raman spectrometry |
DOI
|
| Effect of particle size and concentration on low-frequency terahertz scattering in granular compacts [Invited] |
2023 |
Murphy Keir N., Naftaly Mira, Nordon Alison, Markl Daniel |
Optical Materials Express |
13 |
2251 |
A9. Terahertz |
DOI
|
| Effect of particle size distribution on spatially and angularly resolved diffuse reflectance measurement |
2018 |
Chen Yi-Chieh, Tiernan-Vandermotten Sarra, Lue Leo, Ferreira Carla Sofia, Sefcik Jan, Thannadil Suresh |
European Pharamaceutical Review |
23 |
34-37 |
A2 Particle size effects in Raman and NIR, C1 Multivariate data analysis, D2 Multi-block, predictive and multi-scale modelling methods |
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
|
| 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
|
| 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
|
| Estimating particle concentration using passive ultrasonic measurement of impact vibrations |
2009 |
Carson G, Mulholland AJ, Nordon A, Tramontana N, Gachagan A and Hayward G |
IEEE T. Ultrason. Ferrer. |
56 |
345-352 |
A7. Ultrasonics and acoustic emission spectrometry |
DOI
|
| Evaluation of low-field nuclear magnetic resonance spectrometry for at-line process analysis |
2002 |
Nordon A, McGill C A, Littlejohn D |
Applied Spectroscopy |
56 |
75-82 |
A6. Low field NMR 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 Multicomponent System |
2011 |
Steponavicius R and Thennadil SN |
Anal. Chem. |
83 |
1931-1937 |
A4. Scattering and radiative transfer theory for NIR |
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
|
| Factors affecting broadband acoustic emission measurements of a heterogeneous reaction |
2006 |
Nordon A, Carella Y, Gachagan A, Littlejohn D and Hayward G |
Analyst |
131 |
323-330 |
B1 Reaction monitoring, A7. Ultrasonics and acoustic emission 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
|
| Image analysis framework with focus evaluation for in situ characterisation of particle size and shape attributes |
2018 |
Cardona Javier, Ferreira Carla, McGinty John, Hamilton, Andrew, Agimelen Okpeafoh S, Cleary Alison, Atkinson Robert, Michie Craig, Marshall Stephen, Chen Yi-Chieh, Sefcik Jan, Andonovic Ivan, Tachtatzis Christos |
Chemical Engineering Science |
Vol 191 |
208-231 |
A. Process Analytical Techniques, C1 Multivariate data analysis |
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
|
| 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
|
| Integrated Continuous Process Design for Crystallisation, Spherical Agglomeration, and Filtration of Lovastatin |
2024 |
Brown Cameron J., McGinty John, Islam Muhammad T., Rajoub Nazer, Arjmandi-Tash Omid, Ottoboni Sara, Shahid Muhid, Urwin Stephanie J., Lee Ye Seol, Chong Magdalene W. S., Papathanasiou Foteini, Prakash Aruna S., Prasad Elke, Spence Bronwyn, Sefcik Jan, Robertson John, Smith Rachel, Litster James D., Price Chris J., Nordon Alison, Adjiman Claire S., Florence Alastair J. |
Journal of Pharmaceutical Innovation |
19 |
|
A7. Ultrasonics and acoustic emission 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
|
| 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
|
| Low-Field High-Resolution PFG-NMR to Predict the Size Distribution of Inner Droplets in Double Emulsions |
2021 |
Khadem Behnam, Parrott Andrew, Nordon Alison, Sheibat-Othman Nida |
European Journal of Lipid Science and Technology |
123 |
2000193 |
A6. Low field NMR spectrometry |
DOI
|
| Monitoring of a heterogeneous reaction by acoustic emission |
2004 |
Nordon A, Waddell R J H, Bellamy L J, Gachagan A, McNab D, Littlejohn D and Hayward G |
Analyst |
129 |
463-467 |
B1 Reaction monitoring, A7. Ultrasonics and acoustic emission 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
|
| 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
|
| 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
|
| Novel utilisation of a circular multi‑reflection cell applied to materials ageing experiments |
2015 |
DA Knox; AK King; ED McNaghten; SJ Brooks; PA Martin and SM Pimblott |
Applied Physics B |
119 |
55 - 64 |
A. Process Analytical Techniques |
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
|
| Observation of Spurious Spectral Features in Mixed-Powder Compressed Pellets Measured by Terahertz Time-Domain Spectroscopy |
2023 |
Murphy Keir N, Markl Daniel, Nordon Alison, Naftaly Mira |
IEEE Transactions on Terahertz Science and Technology |
13 |
569-572 |
A9. Terahertz |
DOI
|
| On-line detection and quantification of trace impurities in vaporisable samples by direct liquid introduction process mass spectrometry |
2014 |
Owen A W, Nordon A, Littlejohn D, Lynch T P, S J Lancaster, R G Wright |
Analytical Methods |
Vol 6, No 20, 01.01.2014 |
Pg 8148 - 8153 |
A8. Process mass spectrometry |
DOI
|
| Particle sizing using passive ultrasonic measurement of particle–wall impact vibrations |
2008 |
Carson G, Mulholland AJ, Nordon A, Tramontana M, Gachagan A and Hayward G |
Journal of Sound and Vibration |
317 |
142-157 |
A7. Ultrasonics and acoustic emission 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
|
| Potential Applications of At-line Process Analysis by NMR Spectrometry |
2001 |
Nordon A, McGill C A, Littlejohn D |
Journal of Process and Analytical Chemistry |
|
39-41 |
A6. Low field NMR spectrometry |
|
| Process NMR Spectroscopy |
2001 |
Nordon A, McGill C A, Littlejohn D |
Analyst |
126 |
260-272 |
A6. Low field NMR spectrometry |
DOI
|
| Quantification of particle size and concentration using in-line techniques and multivariate analysis |
2020 |
Ferreira Carla, Cardona Javier, Agimelen Okpeafoh, Tachtatzis Christos, Andonovic Ivan, Sefcik Jan, Chen Yi-Chieh |
Powder Technology |
376 |
1-11 |
A2 Particle size effects in Raman and NIR |
DOI
|
| Quantitative analysis of low-field NMR signals in the time domain |
2001 |
Nordon A, Gemperline P J, McGill C A, Littlejohn D |
Analytical Chemistry |
73 |
4286-4294 |
A6. Low field NMR spectrometry |
DOI
|
| Quantitative analysis of powder mixtures by Raman spectrometry: the influence of particle size and its correction |
2012 |
Chen Z, Li L, Jin J, Nordon A, Littlejohn D, Yang J, Zhang J and Yu R |
Analytical Chemistry |
84 |
4088-4094 |
A2 Particle size effects in Raman and NIR, C1 Multivariate data analysis |
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
|
| 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
|
| Relationship between the Kubelka-Munk scattering and radiative transfer coefficients |
2008 |
Thennadil SN |
J. Opt. Soc. Am. A |
25 |
1480-1485 |
A4. Scattering and radiative transfer theory for NIR |
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
|
| Shift-invariant tri-linearity—A new model for resolving untargeted gas chromatography coupled mass spectrometry data |
2023 |
Schneide Paul-Albert, Bro Rasmus, Gallagher Neal B. |
Journal of Chemometrics |
37 |
|
C1 Multivariate data analysis, A8. Process mass spectrometry |
DOI
|
| Simulation of diffuse reflectance for characterisation of particle suspensions |
2017 |
Thomson K, Stoliarskaia D, Tiernan-Vandermotten S, Lue L, Chen Y |
SPIE - Optical Diagnostics and Sensing XV11 - Toward Point of Care Diagnostics |
17/02/17 |
|
A2 Particle size effects in Raman and NIR |
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
|
| System modelling and device development for passive acoustic monitoring of a particulate-liquid process |
2015 |
Tramontana M, Gachagan A, Nordon A, Littlejohn D, O'Leary R and Mulholland A |
Elsevier, Sensors and Actuators A:Physical |
228 |
159-169 |
A7. Ultrasonics and acoustic emission 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
|
| Theoretical analysis of ultrasonic vibration spectra from multiple particle-plate impacts |
2009 |
Carson G, Mulholland AJ, Nordon A, Gachagan A and Hayward G |
IEEE T. Ultrason. Ferrer. |
56 |
1034-1041 |
A7. Ultrasonics and acoustic emission 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
|
| 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
|
| Use of in-line Near Infrared Spectroscopy to Predict the Viscosity of Shampoo using Multivariate Analysis |
2019 |
Haroon Kiran, Arafeh Ali, Martin Philip, Rodgers Thomas, Mendoza Cesar, Baker Michael |
International Journal of Cosmetic Science |
|
|
A3. Transmission NIR spectrometry/Raman spectrometry |
DOI
|
| Variation in the transmission near-infrared signal with depth in turbid media |
2014 |
Kellichan N, Nordon A, Matousek P, Littlejohn D and McGeorge G |
Applied Spectroscopy |
68 |
383-387 |
A3. Transmission NIR spectrometry/Raman spectrometry |
DOI
|