Production of cellulose and microcellulose from pineapple leaf fibre by chemical-mechanical treatment

Abstract: Pineapple leaf fibre (PALF) is major waste from pineapple cultivation with high cellulose content that exhibits superior mechanical properties. In this study, chemical-mechanical treatments were conducted to produce cellulose and microcellulose. For alkali and steam treatment, PALF treated with 5 wt% sodium hydroxide solution and steamed in an autoclave at temperature of 121 °C and pressure of 21 psi. Next, the PALF was bleached with 5 wt% sodium chlorite. Continued with acid hydrolysis with 3.5 M and 7.5 M hy… Show more

“…Untreated and alkali treated PALF fibre were dried at 60 °C until a constant weight was achieved [12]. The FTIR was conducted with Thermo Scientific iD7 ATR FTIR Spectrometer scanned in a range of 500 -4000 cm -1 at the resolution of 4 cm -1 and the average scans for each sample were taken.…”

Effect of Alkaline treatment on the characteristics of pineapple leaves fibre and PALF/PP biocomposite

“…Untreated and alkali treated PALF fibre were dried at 60 °C until a constant weight was achieved [12]. The FTIR was conducted with Thermo Scientific iD7 ATR FTIR Spectrometer scanned in a range of 500 -4000 cm -1 at the resolution of 4 cm -1 and the average scans for each sample were taken.…”

Effect of Alkaline treatment on the characteristics of pineapple leaves fibre and PALF/PP biocomposite

Isolation and characterisation of nanofibrillated cellulose from N36 Ananas comosus leaves via ball milling with green solvent

Effect of Steam-Alkaline coupled treatment on N36 cultivar pineapple leave fibre for isolation of cellulose