From Waste to Wealth: Challenges in Producing Value-Added Biochemicals from Lignocellulose Biorefinery

Kirdponpattara, S., Chuetor, S., Sriariyanun, M., & Phisalaphong, M. (2022). Bioethanol production by pichia stipitis immobilized on water hyacinth and Thin-Shell silk cocoon. Applied Science and Engineering Progress, 15(3), 4662-4662.

Panakkal, E., & Sriariyanun, M. (2023). Valorization of Lignocellulosic Biomass to Value Added Products. The Journal of KMUTNB, 33(1),1-3.

Phakeenuya, V., & Kitiborwornkul, N. (2024). Recent progress in biorefining process for production of biofuels, biochemicals and biomaterials from lignocellulosic biomass. The Journal of KMUTNB, 34(4), 1-8. https://doi.org/ 10.14416/j.kmutnb.2023.03.002

Phusantisampan, T., & Kitiborwornkul, N. (2022). Progress in chemical pretreatment of lignocellulose biomass for applications in biorefinery. The Journal of KMUTNB, 32(4), 1087-1101.

Ruensodsai, T., & Sriariyanun, M. (2022). Sustainable development and progress of lignocellulose conversion to platform chemicals. The Journal of KMUTNB, 32(4), 815-818.

Sriariyanun, M., Gundupalli, M. P., Phakeenuya, V., Phusamtisampan, T., Cheng, Y. S., & Venkatachalam, P. (2023). Biorefinery approaches for production of cellulosic ethanol fuel using recombinant engineered microorganisms. Journal of Applied Science and Engineering, 27(2),1985-2005.Figure 1Challenges in lignocellulose biorefinery for the production of value-added biochemicals.