Journal
JOURNAL OF CLEANER PRODUCTION
Volume 413, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2023.137476
Keywords
Averrhoa bilimbi juice; Bioleaching; Nanosilica; Rice husk
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The study introduces a new concept of preparing nanosilica from rice husk without concentrated mineral acids by using a bioleaching strategy to remove metallic impurities. Nanosilica (BJRHS) was prepared by calcinating Averrhoa bilimbi juice pre-treated rice husks. The chemical and atomic structures of commercial precipitated silica (CS), rice husk ash (RHA), and BJRHS were analyzed using different techniques. The results showed that BJRHS had a smaller particle size and a higher BET surface area compared to RHA and CS. Sustainable production of mesoporous nanosilica with excellent surface area and purity from rice husk is recommended for applications in catalysis, polymer technology, etc.
The preparation of nanosilica from rice husk without using any concentrated mineral acids is a novel concept. This work proposes a bioleaching strategy to remove metallic impurities from rice husk for the preparation of nanosilica. Herein, nanosilica (BJRHS) was prepared by calcinating Averrhoa bilimbi juice pre-treated rice husks in a muffle furnace. The chemical and atomic structures of commercial precipitated silica (CS), rice husk ash (RHA), and BJRHS were analyzed using different analytical techniques. The optimal leaching time, calcination temperature, and calcination time were 1 h, 500 degrees C, and 6 h respectively. The particle size of BJRHS was found to be 6-12 nm, which is less than that of RHA and CS. The BET surface area of BJRHS (204 m2/g) was found to be greater than RHA (110.5 m2/g) and CS (172.1 m2/g). Mesoporous nanosilica with excellent surface area and purity was produced sustainably from rice husk which could be recommended to use in the field of catalysis, polymer technology, etc.
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