@article{4623,
  author = {Sowmya Kuppusamy},
  title = {Biosoftening of Lignin in Sugarcane Bagasse Using Pleurotus Sajor- Caju: A Sustainable Approach for Enhancanced Reactivity in Resin- Production},
  journal = {Academia and Society},
  year = {2025},
  volume = {12},
  number = {1},
  doi = {https://doi.org/10.6025/aas/2025/12/1/1-20},
  url = {https://www.dline.info/aas/fulltext/v12n1/aasv12n1_1.pdf},
  abstract = {This study investigates the biosoftening of lignin in sugarcane bagasse using the
white-rot fungus Pleurotus sajor-caju through solid-substrate fermentation. Bagasse,
a ligno cellulosic waste rich in lignin (21%), was inoculated with fungal spawns and
incubated for five weeks. Lignin was extracted weekly via alkaline delignification
and analyzed using UV spectroscopy and FT-IR to assess structural changes. Results showed a progressive decline in lignin yield-from 62.2% at week 0 to 15.38%
by week 5-indicating effective fungal degradation. UV scans revealed reduced absorbance at 260-280 nm and shifts in max, suggesting cleavage of aromatic rings
and demethoxylation. FT-IR analysis confirmed the breakdown of key lignin structures, including aromatic skeletal vibrations (1600-1510 cm-1), O-H stretching
(~3420 cm-1), and ether linkages (1120-1030 cm-1), alongside the emergence of
carbonyl groups (~1720 cm-1), signaling oxidative depolymerization. These modifications enhance lignin's reactivity, making it more suitable for resin synthesis, particularly lignin-phenol-formaldehyde (LPF) resins. The study demonstrates that P.
sajor-caju offers an eco-friendly, cost-effective alternative to chemical softening
methods, reducing environmental impact while valorizing agricultural waste. The
findings support the use of white-rot fungi in sustainable bioprocesses for industrial
lignin modification and the production of bio-based polymers.},
}