Identification of cotton and cotton trash components by Fourier transform near-infrared spectroscopy

Fortier, Chanel; Rodgers, James; Cintrón, Michael Santiago; Cui, Xiao; Foulk, Jonn A.

doi:10.1177/0040517510383620

Cited by 40 publications

(38 citation statements)

References 10 publications

(17 reference statements)

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“…The development of an FT-IR spectral database yielded highly accuracte identification of cotton trash and foreign matter serving as a "proof of concept" of the utility of this instrumental method. Fortier and co-workers later compared their FT-IR results to that of this preliminary FT-IR study by Himmelsbach and co-workers (Fortier et al, 2010). The two studies yielded comparable results.…”

Section: Botanical and Synthetic Cotton Trashmentioning

confidence: 93%

“…In terms of the cotton trash, there was considerable overlap throughout the entire spectral region with a defining peak over the spectral region of 1400 nm to 1500 nm which did not include a cotton peak. Even though cotton had distinctive spectral bands, the investigation was continued to gain non-overlapping spectral identity for all the trash components with a validation report showing no confused components (Fortier et al, 2010). Thus, the investigation was expanded to include different wavelength ranges and other preprocessing methods.…”

Section: Fourier-transform Near-infrared Spectroscopy Of Botanical Comentioning

confidence: 99%

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Fourier Transform Spectroscopy of Cotton and Cotton Trash

Fortier¹

2012

Fourier Transform - Materials Analysis

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Section: Botanical and Synthetic Cotton Trashmentioning

confidence: 93%

Section: Fourier-transform Near-infrared Spectroscopy Of Botanical Comentioning

confidence: 99%

Fourier Transform Spectroscopy of Cotton and Cotton Trash

Fortier¹

2012

Fourier Transform - Materials Analysis

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“…The observation revealed the potential of visible/NIR technique in the precise and quantitative determination of total trash, leaf trash, and non-leaf trash components, but it also indicated the difficulty in the prediction of non-leaf trash components such as stem, hull, seed coat, and sand/soil. As a different approach, Fortier et al [14] reported NIR spectral feature of individual or pure plant parts and further for their identifications.…”

Section: Introductionmentioning

confidence: 99%

Preliminary Study of Determining Trash Components in Lint Cottons by Near Infrared Spectroscopy Technique

Y¹,

Thibodeaux²,

Foulk³

et al. 2014

J Textile Sci Eng

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The transfer of Near Infrared (NIR) calibration models for the determination of total trash, leaf trash and non-leaf trash components in cotton fibers was conducted between two sets of samples. These samples to be analyzed are inhomogeneous in a bulky state whereas the samples used as calibrations were homogeneous in a ground state. The efficacy of the model transfer was evaluated based on instrumental leaf grade readings of " as is " diverse samples, because current-in-use trash tests cannot generate the trash amount for individual trash components. Results indicated that the predictions from the direct model transfer were unreliable, but they might be acceptable after the correction or conversion of original predictions with standard samples.

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“…Fortier et al identified botanical trash using near-infrared spectroscopy [3]. By applying a subcategory between the hull and seed coat, a database composed of botanical trash including hull, leaf, seed coat, and stem was designed.…”

mentioning

confidence: 99%

Fourier-Transform Imaging of Cotton and Botanical and Field Trash Mixtures

Fortier

Cintrón

Rodgers

et al. 2017

Fibers

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Botanical and field cotton trash comingled with Upland cotton lint can greatly reduce the marketability and quality of cotton. Trash found comingled with cotton lint during harvesting, ginning, and processing is of interest to the textile community. In the current study attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopic imaging was employed as an analytical technique to analyze cotton trash. Some benefits of this technique were its non-destructive nature and lack of required sample preparation. The technique used in this study, specifically ATR-FTIR spectroscopic chemical imaging, allows for three-dimensional spectral and spatial data to be obtained. In the current study, cotton in mixtures with botanical and field trash types have been identified spectrally and spatially using ATR-FTIR imaging. Botanical trash types (trash derived from the cotton plant) were evaluated and identified independently from cotton, even though both contained cellulose. The field trash types were easily identified from cotton due to their differences in chemical composition. This study can complement current cotton qualitative studies by adding spectral and spatial information to sample analysis.

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Identification of cotton and cotton trash components by Fourier transform near-infrared spectroscopy

Cited by 40 publications

References 10 publications

Fourier Transform Spectroscopy of Cotton and Cotton Trash

Fourier Transform Spectroscopy of Cotton and Cotton Trash

Preliminary Study of Determining Trash Components in Lint Cottons by Near Infrared Spectroscopy Technique

Fourier-Transform Imaging of Cotton and Botanical and Field Trash Mixtures

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