Green coconut shell extract and boric acid: new formulation for making thermally stable cellulosic paper

Basak, Santanu; Patil, P. G.; Shaikh, A.J.; Samanta, Kartick K.

doi:10.1002/jctb.4903

Cited by 42 publications

(11 citation statements)

References 8 publications

(19 reference statements)

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“…Chemical tests for the screening and identification of bioactive constituents in the CSE were carried out with the extracts using the standard procedure [24]. For each test of saponin, phenols, tannins, terpenoid, flavonoids, and glycoside, 2 mL of CSE was used for analysis.…”

Section: Methodsmentioning

confidence: 99%

“…Chemical tests for the screening and identification of bioactive constituents in the CSE were carried out with the extracts using the standard procedure [24].…”

Section: Phytochemical Analysismentioning

confidence: 99%

“…Terpenoids although mainly used for their aromatic qualities have also been found to be a potential agent for inhibiting bacteria. Saponin, which are glycosides, have been found to have inhibitory effects on Gram-positive organism [24]. Green coconut shell (mesocarp) is rich in different types of plant secondary metabolites especially antioxidants, which are essential for microbial infection resistance to protect the coconut from biotic attack [65].…”

Section: Differential Scanning Calorimetric Analysismentioning

confidence: 99%

“…A research group in China has reported the use of chicken feather based protein biomolecule for thermal stability of cotton fabric [19]. The use of natural green waste such as spinach leaves [20], banana pseudostem sap [21,22] green coconut shell extract [23,24] also has been done for making fire retardant textile material.…”

Section: Introductionmentioning

confidence: 99%

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Development of thermally stable and hygienic colored cotton fabric made by treatment with natural coconut shell extract

Teli

Pandit

2017

Journal of Industrial Textiles

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As far as the value addition of textile is concerned, flame retardancy of textile materials is considered to be one of the most important properties in textile finishing by both industries as well as academic researchers. Flame-retardant property with thermal stability was imparted to cotton by using green coconut (Cocos nucifera Linn) shell extract, a natural waste source of coconut. Coconut shell extract was analyzed by high-performance liquid chromatography, Fourier transform infrared spectroscopy, energy-dispersive spectrometry and its phytochemical analysis was also carried out. The coconut shell extract (acidic after extraction) was applied in three different pH (acidic, neutral, and alkaline) conditions to the cotton fabric. Flame-retardant properties of the untreated and the treated cotton fabrics were analyzed by limiting oxygen index and vertical flammability. The study showed that all the treated fabrics had good flame resistance property compared to that of the untreated fabric. The limiting oxygen index value was found to increase by 72.2% after application of the coconut shell extract from alkaline pH. Pyrolysis and char formation behavior of the concerned fabrics were studied using thermogravimetric analysis and differential scanning calorimetric analysis in a nitrogen atmosphere. The physicochemical composition of the untreated and coconut shell extract treated cotton fabrics were analyzed by attenuated total reflection-Fourier transform infrared, scanning electron microscope, and energy-dispersive X-ray spectroscopy. Also, treated cotton fabric showed natural brown color and antibacterial

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Section: Methodsmentioning

confidence: 99%

“…Chemical tests for the screening and identification of bioactive constituents in the CSE were carried out with the extracts using the standard procedure [24].…”

Section: Phytochemical Analysismentioning

confidence: 99%

Section: Differential Scanning Calorimetric Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Development of thermally stable and hygienic colored cotton fabric made by treatment with natural coconut shell extract

Teli

Pandit

2017

Journal of Industrial Textiles

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“…Wood pulp paper (WPP), as a typical cellulosic material, has been widely used in the fields of printing substrate, packaging materials, interior furniture, and hygiene products on account of numerous desirable features, such as renewability, biodegradability, biocompatibility, large reserves on earth, and easy processing 1‐3 . However, like most cellulosic materials, WPP is highly inflammable and its limited oxygen index (LOI) value is only 19.6%, meaning that it can be easily ignited and has latent risk to cause fire disasters 4 . As a result, extensive applications of WPP in some specific fields which require high flame retardance are seriously restricted due to this drawback.…”

Section: Introductionmentioning

confidence: 99%

In‐situ synthesis and adhesion method to prepare phosphorous–nitrogen compounds flame‐retardant wood pulp paper with high efficiency and durability

et al. 2021

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Summary In the present work, flame‐retardant wood pulp paper (WPP) with high water resistance was fabricated through in‐situ synthesis and adhesion of flame retardant on the lignocellulose fibers. Through a simple solution spraying method, melamine (Me) and polyphosphoric acid solution were adequately permeated into interior lignocellulose fibers of WPP in turn and then reacted to produce water‐insoluble phosphorous–nitrogen melamine polyphosphate (MPP). The finally sprayed melamine formaldehyde prepolymer played the roles of flame‐retardant coating, adhesive agent, and water‐proofing layer, thus bonding MPP particles to the lignocellulose fibers firmly. This low‐cost and efficient treatment endowed WPP with excellent flame retardance and satisfactory durability. It showed that the modified WPP had a high limiting oxygen index value of 37.3%, and achieved B‐0 rating in vertical burning test, as well as greatly lowered the peak heat release rate and the total heat release. The flame‐retardant mechanisms of the modified WPP were analyzed and discussed. Moreover, the flame retardance kept well after 72 hours of water resistance test, showing good combination between the flame‐retardant particles and the lignocellulose fibers.

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Sustainable Coloration and Value Addition to Textiles

Basak

Samanta

Chattopadhyay

et al. 2018

Handbook of Renewable Materials for Coloration and Finishing

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Green coconut shell extract and boric acid: new formulation for making thermally stable cellulosic paper

Cited by 42 publications

References 8 publications

Development of thermally stable and hygienic colored cotton fabric made by treatment with natural coconut shell extract

Development of thermally stable and hygienic colored cotton fabric made by treatment with natural coconut shell extract

In‐situ synthesis and adhesion method to prepare phosphorous–nitrogen compounds flame‐retardant wood pulp paper with high efficiency and durability

Sustainable Coloration and Value Addition to Textiles

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