Physico-mechanical, thermal and morphological properties of furfuryl alcohol/2-ethylhexyl methacrylate/halloysite nanoclay wood polymer nanocomposites (WPNCs)

Rahman, Rezaur; Hamdan, Sinin; Lai, Josephine Chang Hui; Jawaid, Mohammad; Yusof, Fahmi Asyadi Bin Md

doi:10.1016/j.heliyon.2017.e00342

Cited by 14 publications

(8 citation statements)

References 35 publications

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“…1), the C=O ester band at 1732 cm −1 was found in all four samples (A, B, C, D) decreasing in intensities from recent to aged one, and ascribed to acetoxy group (H 3 C-(C=O)–O-). It corresponds to the free conjugated carbonyl groups of carboxylic acid originating from oxidative primary alcohol CH 2 OH on side chain of xylan in hemicelluloses or in heterocyclic cellulosic ring (Rahman et al., 2017).…”

Section: Resultsmentioning

confidence: 99%

“…ATR-FTIR spectroscopy was widely used to investigate and monitor many types of art works in cultural heritage and building materials such as reinforced with polypropylene (Peng et al., 2015), cellulosic wood weathering degradation (Lionetto et al., 2012), and construction materials and their chromatic alteration (case of cathedral of S. Giorgio in Italy) (Barone et al., 2008). In a recent study, it is used to monitor and to confirm the reinforced methacrylate/halloysite nanoclay wood polymer nanocomposites, expected to be used in building materials in exterior or interior applications (Rahman et al., 2017).…”

Section: Introductionmentioning

confidence: 99%

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Structural characterization of Argania spinosa Moroccan wooden artifacts during natural degradation progress using infrared spectroscopy (ATR-FTIR) and X-Ray diffraction (XRD)

Boukir

Fellak

Doumenq

2019

Heliyon

130

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The present work is focused on spectroscopic study of four samples of Argan wooden artifact pertaining to the 17th, 18th, 20th and 21st centuries. The objective is to characterize their unknown structures by the study of their non degraded parts and to investigate changes occurred in their degraded parts due to the natural degradation process. Attenuated total reflectance Fourier transform infrared spectroscopy gauges the presence of many functional groups related to cellulose I and/or II (OH, C–O–C and –CH2), hemicelluloses (particularly C=O acetoxy ester band at 1732 cm−1), and lignin (OH phenolic, Car-O and C=Car) and provides qualitative information on the state of wood alteration by informing on the evolution of new former C=O bands. The degree of conversion to carbonyl group, especially quinone or p-quinone at 1650 cm−1, is correlated to lignin degradation, while the absence of the C=O acetoxy absorption is ascribable to occurred deterioration in hemicelluloses, and partial degradation of cellulose with enhancement of the C=O region between 1730-1630 cm−1. X-ray diffraction determines the presence of two forms of cellulose; amorphous cellulose at 18.5° 2θ and predominant crystalline cellulose Iβ at 2θ = 22.6° which characterized by an intense peak. The decrease of crystallinity index values confirms the deterioration level and obvious changes in crystallinity level. However, the microcrystalline structure appears unaltered because no significant changes were observed for calculated cristallite seize. The obtained results depend on the prolonged time of ageing, natural deterioration phenomena, and wood part (internal or external) that is exposed to degradation. The combination of these two methods is useful for an accurate estimation of the degradation level of argan wood.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Structural characterization of Argania spinosa Moroccan wooden artifacts during natural degradation progress using infrared spectroscopy (ATR-FTIR) and X-Ray diffraction (XRD)

Boukir

Fellak

Doumenq

2019

Heliyon

130

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“…The major peaks can be listed as follows: 1740 cm −1 is ascribed to unconjugated C=O in xylans (hemicellulose) or in the heterocyclic cellulosic rings [ 28 ]; 1727 cm −1 is due to H-bonded acid/ketone carbonyl groups; ~1645 cm −1 is assigned to C=O stretching in conjugated ketones, water and amide I (proteins); ~1590 and 1510 cm −1 are attributed to aromatic skeletal vibrations (C═C) and aromatic breathing in lignin, respectively [ 29 , 30 , 31 ]; ~1547 cm −1 is related to amide II (proteins); 1457 cm −1 is due to C–H-bending in lignin and hemicelluloses and 1423 and 1370 cm −1 are assigned to CH 2 and CH 3 -bending vibrations, respectively. These bands are typical of the mixture of both crystalline and amorphous cellulose [ 32 ]; 1318 cm −1 is attributed to C-H bending in crystallized cellulose I [ 33 ], and ~1240 cm −1 is assigned to the syringyl ring in lignin and C–O stretching in xylan of hemicellulose [ 25 , 34 ].…”

Section: Resultsmentioning

confidence: 99%

Degradative Ability of Mushrooms Cultivated on Corn Silage Digestate

et al. 2020

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The current management practice of digestate from biogas plants involves its use for land application as a fertilizer. Nevertheless, the inadequate handling of digestate may cause environmental risks due to losses of ammonia, methane and nitrous oxide. Therefore, the key goals of digestate management are to maximize its value by developing new digestate products, reducing its dependency on soil application and the consequent air pollution. The high nitrogen and lignin content in solid digestate make it a suitable substrate for edible and medicinal mushroom cultivation. To this aim, the mycelial growth rate and degradation capacity of the lignocellulosic component from corn silage digestate, undigested wheat straw and their mixture were investigated on Cyclocybe aegerita, Coprinus comatus, Morchella importuna, Pleurotus cornucopiae and Pleurotus ostreatus. The structural modification of the substrates was performed by using attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy. Preliminary in vitro results demonstrated the ability of P. ostreatus, P. cornucopiae and M. importuna to grow and decay hemicellulose and lignin of digestate. Cultivation trials were carried out on C. aegerita, P. cornucopiae and P. ostreatus. Pleurotus ostreatus showed the highest biological efficiency and fruiting body production in the presence of the digestate; moreover, P. ostreatus and P. cornucopiae were able to degrade the lignin. These results provide attractive perspectives both for more sustainable digestate management and for the improvement of mushroom cultivation efficiency.

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“…More precisely, the peak centered at 1734 cm −1 could be ascribed to acetyl and uronic ester groups in hemicellulose and ρ-coumaric acids in lignin [40]. The bands at 1613 cm −1 and 1509 cm −1 corresponded to the aromatic skeletal vibration in lignin [52] as well as the bands at 1458 cm −1 . In addition, the bands at 1422 cm −1 were derived from C-H bending in lignin.…”

Section: In Vitro Mycelial Growth and Atr-ftir Of Substratesmentioning

confidence: 95%

“…In the fingerprint region (1800-600 cm −1 ) of the substrate spectra, WS and HS, and after 30 days of mycelial growth, consistent structural variation for both substrates were found for G. lucidum, L. edodes, and P. cornucopiae (Figure 2a,b). In the WS spectrum (black line) (Figure 2a), the bands at 1735 cm −1 , due to unconjugated C=O, and at 1460 cm −1 (C-H deformation), correspond to those of xylan (hemicellulose) or the heterocyclic cellulosic rings [52]. The peak at 1623 cm −1 may be assigned to carboxylates in aromatic rings.…”

Section: In Vitro Mycelial Growth and Atr-ftir Of Substratesmentioning

confidence: 99%

Valorization of Hazelnut Shells as Growing Substrate for Edible and Medicinal Mushrooms

et al. 2022

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Recently, the cultivation of hazel is undergoing a large expansion. Italy is the world’s second largest producer of hazelnuts, with a production of around 98,530 tons in 2019. The processing of hazelnuts produces large amounts of waste, especially woody pericarps, due to the cracking process, generally used for domestic heating, causing air pollution. The high lignin content present in the pericarps makes them a suitable substrate for the cultivation of edible and medicinal mushrooms. To this aim, Ganoderma lucidum, Lentinula edodes, and Pleurotus cornucopiae were grown and cultivated on different hazelnut-shell-based substrates: Hazelnut Shell (HS), Hazelnut Shell and Wheat Straw (HS-WS), and Wheat Straw mixed with Beech Chips (WS-BC) as control. In vitro mycelial grow rate, the degradation capacity of the lignocellulosic fraction, the biological efficiency, and the qualitative differences between mushrooms growing on different substrates by using Attenuated Total Reflectance–Fourier transform infrared (ATR-FTIR) spectroscopy were investigated. Our results suggested the ability of G. lucidum, L. edodes, and P. cornucopiae to grow and decay the lignocellulosic fraction of HS. Cultivation trials showed a similar biological efficiency but a different Fruiting Body Production (FBP) in the presence of HS with respect to the control. ATR-FTIR analysis provided a chemical insight for the examined fruiting bodies, and differences were found among the substrates studied. These results provide attractive perspectives both for more sustainable management and for the improvement of mushroom cultivation efficiency.

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Physico-mechanical, thermal and morphological properties of furfuryl alcohol/2-ethylhexyl methacrylate/halloysite nanoclay wood polymer nanocomposites (WPNCs)

Cited by 14 publications

References 35 publications

Structural characterization of Argania spinosa Moroccan wooden artifacts during natural degradation progress using infrared spectroscopy (ATR-FTIR) and X-Ray diffraction (XRD)

Structural characterization of Argania spinosa Moroccan wooden artifacts during natural degradation progress using infrared spectroscopy (ATR-FTIR) and X-Ray diffraction (XRD)

Degradative Ability of Mushrooms Cultivated on Corn Silage Digestate

Valorization of Hazelnut Shells as Growing Substrate for Edible and Medicinal Mushrooms

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