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parafac matlab 7.10  (MathWorks Inc)


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    MathWorks Inc parafac matlab 7.10
    Core consistencies of P34T obtained with <t> PARAFAC </t> from 77 K time-resolved phosphorescence EEMs a .
    Parafac Matlab 7.10, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/parafac matlab 7.10/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    parafac matlab 7.10 - by Bioz Stars, 2026-03
    90/100 stars

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    1) Product Images from "Low-temperature time-resolved phosphorescence excitation emission matrices for the analysis of phenanthro-thiophenes in chromatographic fractions of complex environmental extracts"

    Article Title: Low-temperature time-resolved phosphorescence excitation emission matrices for the analysis of phenanthro-thiophenes in chromatographic fractions of complex environmental extracts

    Journal: Talanta

    doi: 10.1016/j.talanta.2020.120805

    Core consistencies of P34T obtained with PARAFAC from 77 K time-resolved phosphorescence EEMs a .
    Figure Legend Snippet: Core consistencies of P34T obtained with PARAFAC from 77 K time-resolved phosphorescence EEMs a .

    Techniques Used:

    Summary of results obtained for test sample 2 (see Table 4 for sample composition). Top left: 77 K time-resolved phosphorescence EEM recorded from sample 2 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.
    Figure Legend Snippet: Summary of results obtained for test sample 2 (see Table 4 for sample composition). Top left: 77 K time-resolved phosphorescence EEM recorded from sample 2 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Techniques Used:

    Summary of results obtained for HPLC fraction 6. Top left: 77 K time-resolved phosphorescence EEM recorded from fraction 6 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.
    Figure Legend Snippet: Summary of results obtained for HPLC fraction 6. Top left: 77 K time-resolved phosphorescence EEM recorded from fraction 6 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Techniques Used:



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    parafac matlab 7.10  (MathWorks Inc)
    90
    MathWorks Inc parafac matlab 7.10
    Core consistencies of P34T obtained with <t> PARAFAC </t> from 77 K time-resolved phosphorescence EEMs a .
    Parafac Matlab 7.10, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/parafac matlab 7.10/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    parafac matlab 7.10 - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

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    Core consistencies of P34T obtained with PARAFAC from 77 K time-resolved phosphorescence EEMs a .

    Journal: Talanta

    Article Title: Low-temperature time-resolved phosphorescence excitation emission matrices for the analysis of phenanthro-thiophenes in chromatographic fractions of complex environmental extracts

    doi: 10.1016/j.talanta.2020.120805

    Figure Lengend Snippet: Core consistencies of P34T obtained with PARAFAC from 77 K time-resolved phosphorescence EEMs a .

    Article Snippet: Software for data analysis with PARAFAC MATLAB 7.10 was used for all calculations (The Mathworks Inc., Natick, Massachusetts, USA, 2010) [ 31 ] Software processing was facilitated by a MVC3 graphical user interface written in MATLAB previously described by Olivieri et al. (2012) [ 32 ].

    Techniques:

    Summary of results obtained for test sample 2 (see Table 4 for sample composition). Top left: 77 K time-resolved phosphorescence EEM recorded from sample 2 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Journal: Talanta

    Article Title: Low-temperature time-resolved phosphorescence excitation emission matrices for the analysis of phenanthro-thiophenes in chromatographic fractions of complex environmental extracts

    doi: 10.1016/j.talanta.2020.120805

    Figure Lengend Snippet: Summary of results obtained for test sample 2 (see Table 4 for sample composition). Top left: 77 K time-resolved phosphorescence EEM recorded from sample 2 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Article Snippet: Software for data analysis with PARAFAC MATLAB 7.10 was used for all calculations (The Mathworks Inc., Natick, Massachusetts, USA, 2010) [ 31 ] Software processing was facilitated by a MVC3 graphical user interface written in MATLAB previously described by Olivieri et al. (2012) [ 32 ].

    Techniques:

    Summary of results obtained for HPLC fraction 6. Top left: 77 K time-resolved phosphorescence EEM recorded from fraction 6 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Journal: Talanta

    Article Title: Low-temperature time-resolved phosphorescence excitation emission matrices for the analysis of phenanthro-thiophenes in chromatographic fractions of complex environmental extracts

    doi: 10.1016/j.talanta.2020.120805

    Figure Lengend Snippet: Summary of results obtained for HPLC fraction 6. Top left: 77 K time-resolved phosphorescence EEM recorded from fraction 6 in n-octane; Top right: Phosphorescence (emission) and excitation spectra of P34T predicted with PARAFAC; Bottom: 77 K excitation and phosphorescence spectra recorded from a pure standard solution of P34T in n-octane. EEM and 2D spectra were recorded with the pulsed excitation source and the fiber optic probe using a delay = 40 μs, a gate = 9 ms, and excitation/emission band-pass = 4 nm.

    Article Snippet: Software for data analysis with PARAFAC MATLAB 7.10 was used for all calculations (The Mathworks Inc., Natick, Massachusetts, USA, 2010) [ 31 ] Software processing was facilitated by a MVC3 graphical user interface written in MATLAB previously described by Olivieri et al. (2012) [ 32 ].

    Techniques: