Mat2dcorr - Relevant Publications: Difference between revisions
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| Wikipedia link | | Wikipedia link: [https://en.wikipedia.org/wiki/Two-dimensional_correlation_analysis Two-dimensional correlation analysis] | ||
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== Publications in which the mat2dcorr toolbox has been used or mentioned == | |||
<ol> | <ol> | ||
<li>Lasch, P. and I. Noda '''2017'''<br> | <li>Lasch, P. and I. Noda '''2017'''<br> | ||
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[https://doi.org/10.1177/0003702818819880 Two-Dimensional Correlation Spectroscopy (2D-COS) for Analysis of Spatially Resolved Vibrational Spectra].<br> | [https://doi.org/10.1177/0003702818819880 Two-Dimensional Correlation Spectroscopy (2D-COS) for Analysis of Spatially Resolved Vibrational Spectra].<br> | ||
''Appl Spectrosc''. 73(4): 359-379.</li> | ''Appl Spectrosc''. 73(4): 359-379.</li> | ||
<li>Pin, J. M., Anstey, A., Park, C. B., & Lee, P. C. '''2020'''<br> | |||
[https://pubs.acs.org/doi/10.1021/acs.macromol.0c01819 Exploration of Polymer Calorimetric Glass Transition Phenomenology by Two-Dimensional Correlation Analysis].<br> | |||
''Macromolecules'', 54(1), 473-487.</li> | |||
<li>Park, Y., Jin, S., Noda, I., & Jung, Y. M. '''2020'''<br> | |||
[https://doi.org/10.1016/j.molstruc.2020.128405 Emerging developments in two-dimensional correlation spectroscopy (2D-COS)].<br> | |||
''Journal of Molecular Structure'', 1217, 128405.</li> | |||
<li>Sun, Y., Wang, X., Xia, S., & Zhao, J. '''2021'''<br> | <li>Sun, Y., Wang, X., Xia, S., & Zhao, J. '''2021'''<br> | ||
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C''hemical Engineering Journal'', 416, 129085.<br> | C''hemical Engineering Journal'', 416, 129085.<br> | ||
</li> | </li> | ||
<li>Amato, J., Iaccarino, N., D'Aria, F., D'Amico, F., Randazzo, A., Giancola, C., ... & Pagano, B. '''2022'''.<br> | <li>Amato, J., Iaccarino, N., D'Aria, F., D'Amico, F., Randazzo, A., Giancola, C., ... & Pagano, B. '''2022'''.<br> | ||
[https://doi.org/10.1039/D2CP00058J Conformational plasticity of DNA secondary structures: Probing the conversion between i-motif and hairpin species by circular dichroism and ultraviolet resonance Raman spectroscopies].<br> | [https://doi.org/10.1039/D2CP00058J Conformational plasticity of DNA secondary structures: Probing the conversion between i-motif and hairpin species by circular dichroism and ultraviolet resonance Raman spectroscopies].<br> | ||
''Physical Chemistry Chemical Physics'', 24(11), 7028-7044.</li> | ''Physical Chemistry Chemical Physics'', 24(11), 7028-7044.</li> | ||
<li>Lan, Z., Zhang, Y., Chen, X., Li, S., Cao, H., Wang, S., & Meng, J. '''2022'''<br> | <li>Lan, Z., Zhang, Y., Chen, X., Li, S., Cao, H., Wang, S., & Meng, J. '''2022'''<br> | ||
| Line 64: | Line 63: | ||
<li>Park, Y., Jin, S., Noda, I., & Jung, Y. M. '''2022'''<br> | <li>Park, Y., Jin, S., Noda, I., & Jung, Y. M. '''2022'''<br> | ||
[https://doi.org/10.1016/j.saa.2022.121750 Continuing progress in the field of two-dimensional correlation spectroscopy (2D-COS), part II. Recent noteworthy developments.<br> | [https://doi.org/10.1016/j.saa.2022.121750 Continuing progress in the field of two-dimensional correlation spectroscopy (2D-COS), part II. Recent noteworthy developments].<br> | ||
''Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy'', 121750.</li> | ''Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy'', 121750.</li> | ||
<li> | <li>Singh, R., Yadav, V., & Siddhanta, S. '''2023'''<br> | ||
[https://doi.org/10.1016/j. | [https://doi.org/10.1039/D2CP05705K Probing plasmon-induced surface reactions using two-dimensional correlation vibrational spectroscopy].<br> | ||
'' | ''Physical Chemistry Chemical Physics'', 25(8), 6032-6043.</li> | ||
<li>Peng, S., F. Wang, D. Wei, C. Wang, et al.,'''2023'''<br> | |||
[https://dx.doi.org/10.1016/j.jes.2023.10.004 Application of FTIR two-dimensional correlation spectroscopy (2D-COS) analysis in characterizing environmental behaviors of microplastics: A systematic review.] <br> | |||
''Journal of Environmental Sciences''</li> | |||
<li>Singh, R., V. Yadav, and S. Siddhanta,'''2023'''<br> | |||
[https://www.ncbi.nlm.nih.gov/pubmed/36779479 Probing plasmon-induced surface reactions using two-dimensional correlation vibrational spectroscopy.] <br> | |||
''Phys Chem Chem Phys'', . 25(8): p. 6032-6043.</li> | |||
<li>Chavez-Angel, E., R.C. Ng, S. Sandell, J. He, et al.,'''2023'''<br> | |||
[https://www.ncbi.nlm.nih.gov/pubmed/36771835 Application of Synchrotron Radiation-Based Fourier-Transform Infrared Microspectroscopy for Thermal Imaging of Polymer Thin Films.] <br> | |||
''Polymers (Basel)'', . 15(3).</li> | |||
<li>Mite-Guzmán, N., M. Lazo, J. Triguero, A. Damián, et al., '''2023'''<br> | |||
[https://doi.org/10.1016/j.cscee.2023.100359 Two-dimensional infrared for monitoring the structural variations of UV-aged recycled polypropylene straps used in the Ecuadorian banana industry.] <br> | |||
''Case Studies in Chemical and Environmental Engineering'',. 7: p. 100359.</li> | |||
</ol> | </ol> | ||
Latest revision as of 15:12, 18 October 2023
Two-dimensional correlation spectroscopy (2D-COS), or two-dimensional correlation analysis is known as a set of mathematical techniques useful to study changes in dynamic spectra. Dynamic spectra are often represented by spectra series obtained from a sample that was subjected to an external perturbation.
The 2D-COS analysis technique has been initially developed by Isao Noda in the 1980s.
| Wikipedia link: Two-dimensional correlation analysis |
Relevant Publications
Main concepts of two-dimensional correlation analysis
Basic principles of generalized 2D correlation spectroscopy are outlined in the following series of scientific publications:
- Noda, I..
Two-Dimensional Infrared (2D IR) Spectroscopy: Theory and Applications,
1990 Appl Spectrosc. 44(4): 550-561. - Noda, I.
Generalized Two-Dimensional Correlation Method Applicable to Infrared, Raman, and other Types of Spectroscopy,
1993 Appl Spectrosc. 47(9): 1329-1336. - Noda, I.
Determination of Two-Dimensional Correlation Spectra Using the Hilbert Transform,
2000 Appl Spectrosc. 54(7): 994-999.
Publications in which the mat2dcorr toolbox has been used or mentioned
- Lasch, P. and I. Noda 2017
Two-Dimensional Correlation Spectroscopy for Multimodal Analysis of FT-IR, Raman, and MALDI-TOF MS Hyperspectral Images with Hamster Brain Tissue.
Anal Chem. 89(9): 5008-5016. - Lasch, P. and I. Noda 2019
Two-Dimensional Correlation Spectroscopy (2D-COS) for Analysis of Spatially Resolved Vibrational Spectra.
Appl Spectrosc. 73(4): 359-379. - Pin, J. M., Anstey, A., Park, C. B., & Lee, P. C. 2020
Exploration of Polymer Calorimetric Glass Transition Phenomenology by Two-Dimensional Correlation Analysis.
Macromolecules, 54(1), 473-487. - Park, Y., Jin, S., Noda, I., & Jung, Y. M. 2020
Emerging developments in two-dimensional correlation spectroscopy (2D-COS).
Journal of Molecular Structure, 1217, 128405. - Sun, Y., Wang, X., Xia, S., & Zhao, J. 2021
New insights into oxytetracycline (OTC) adsorption behavior on polylactic acid microplastics undergoing microbial adhesion and degradation
Chemical Engineering Journal, 416, 129085.
- Amato, J., Iaccarino, N., D'Aria, F., D'Amico, F., Randazzo, A., Giancola, C., ... & Pagano, B. 2022.
Conformational plasticity of DNA secondary structures: Probing the conversion between i-motif and hairpin species by circular dichroism and ultraviolet resonance Raman spectroscopies.
Physical Chemistry Chemical Physics, 24(11), 7028-7044. - Lan, Z., Zhang, Y., Chen, X., Li, S., Cao, H., Wang, S., & Meng, J. 2022
Efficient Detection of Limonoid From Citrus Seeds by Handheld NIR: Compared with Benchtop NIR.
Food Analytical Methods, 15(7), 1909-1921. - Chavez-Angel, E., Puertas, B., Kreuzer, M., Soliva Fortuny, R., Ng, R. C., Castro-Alvarez, A., & Sotomayor Torres, C. M. 2022
Spectroscopic and thermal characterization of extra virgin olive oil adulterated with edible oils.
Foods, 11(9), 1304. - Park, Y., Jin, S., Noda, I., & Jung, Y. M. 2022
Continuing progress in the field of two-dimensional correlation spectroscopy (2D-COS), part II. Recent noteworthy developments.
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 121750. - Singh, R., Yadav, V., & Siddhanta, S. 2023
Probing plasmon-induced surface reactions using two-dimensional correlation vibrational spectroscopy.
Physical Chemistry Chemical Physics, 25(8), 6032-6043. - Peng, S., F. Wang, D. Wei, C. Wang, et al.,2023
Application of FTIR two-dimensional correlation spectroscopy (2D-COS) analysis in characterizing environmental behaviors of microplastics: A systematic review.
Journal of Environmental Sciences - Singh, R., V. Yadav, and S. Siddhanta,2023
Probing plasmon-induced surface reactions using two-dimensional correlation vibrational spectroscopy.
Phys Chem Chem Phys, . 25(8): p. 6032-6043. - Chavez-Angel, E., R.C. Ng, S. Sandell, J. He, et al.,2023
Application of Synchrotron Radiation-Based Fourier-Transform Infrared Microspectroscopy for Thermal Imaging of Polymer Thin Films.
Polymers (Basel), . 15(3). - Mite-Guzmán, N., M. Lazo, J. Triguero, A. Damián, et al., 2023
Two-dimensional infrared for monitoring the structural variations of UV-aged recycled polypropylene straps used in the Ecuadorian banana industry.
Case Studies in Chemical and Environmental Engineering,. 7: p. 100359.
Acknowledgement
mat2dcorr is an open source software project which has been initiated and is maintained by Peter Lasch at the Proteomics and Spectroscopy unit at the Robert Koch-Institute (Berlin/Germany). The Matlab-based mat2dcorr toolbox is distributed under the Creative Commons CC BY-NC-SA 4.0 license for non-commercial use. Please send references to any publications, presentations, or successful funding applications that make use of the mat2Dcorr toolbox (e-mail).
In addition, I kindly ask to acknowledge utilization of the mat2dcorr toolbox by citing the following paper:
| Two-Dimensional Correlation Spectroscopy (2D-COS) for Analysis of Spatially Resolved Vibrational Spectra. Lasch, P. and Noda, I. Appl Spectrosc. 2019. 73(4): 359-379. doi:10.1177/0003702818819880 |
Bug reports are welcome! (e-mail)