Methods of non-stationary signal processing for more sensitive NMR spectroscopy (Q84303): Difference between revisions
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(Removed claim: financed by (P890): Directorate-General for Regional and Urban Policy (Q8361), Removing unnecessary financed by statement) |
(Changed label, description and/or aliases in fr: translated_label) |
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Méthodes de traitement des signaux non stationnaires pour la spectroscopie RMN plus sensible | |||
Revision as of 16:25, 30 November 2021
Project Q84303 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Methods of non-stationary signal processing for more sensitive NMR spectroscopy |
Project Q84303 in Poland |
Statements
1,929,569.0 zloty
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1,929,569.0 zloty
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100.0 percent
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1 July 2018
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30 June 2021
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UNIWERSYTET WARSZAWSKI
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Nuclear magnetic resonance (NMR) spectroscopy is one of the most powerful tools of chemical analysis. Invention of multidimensional NMR in 1970s opened way to such advanced studies as determination of biomolecular structures in solution. However, multidimensional spectroscopy is very time-consuming due to rules of conventional signal sampling theory. The measurement times can reach several days to provide sufficient resolution. Moreover, many NMR experiments have to be repeated in varying conditions which makes them prohibitively long. The current project proposes a new approach to accelerate the serial NMR measurements manyfold. The approach, based on Radon transform and fractional Fourier transform will be developed and implemented in various kinds of NMR spectroscopy: solid state, pure-shift, time-resolved and diffusion-ordered. Results will contribute to more efficient exploitation of NMR in pharmaceutical research and food industry, to mention just few applications. (Polish)
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Nuclear magnetic resonance (NMR) spectroscopy is one of the most powerful tools of chemical analysis. Invention of multidimensional NMR in 1970s opened way to such advanced studies as determination of biomolecular structures in solution. However, multidimensional spectroscopy is very time-consuming due to rules of conventional signal sampling theory. The measurement times can reach several days to provide sufficient resolution. Moreover, many NMR experiments have to be repeated in varying conditions which makes them prohibitively long. The current project Proposes a new approach to accelerate the series NMR measurements manyfold. The approach, based on Radon transform and fractional Fourier transform will be developed and implemented in various kinds of NMR spectroscopy: solid state, pure-shift, time-resolved and diffusion-ordered. Results will contribute to more efficient exploitation of NMR in pharmaceutical research and food industry, to mention just few applications. (English)
14 October 2020
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Identifiers
POIR.04.04.00-00-4343/17
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