2017 Annual Meeting

Session: Recalcitrance of Woody Biomass

Woody biomass contains cellulose which is a highly stable polymer of gluco-pyranoses. Cellulose in forest biomass is mostly in a crystalline state and is exceedingly stable to chemical degradation. The reactivity barrier to cellulose degradation and hydrolysis is known as its recalcitrance and is the major technological barrier to economic implementations of products based on cellulose degradation. This session focuses on the recalcitrance of woody biomass, a key component of which is cellulose.

Chair

Subramanian Ramakrishan, Florida State University

Co-Chair

Maobing Tu, Auburn University

Presentations

03:15 PM

(447a) Stimulation and Inhibition of Organosolv Lignins on Enzymatic Hydrolysis Mediated By Zeta Potential and Hydrophobicity
Maobing Tu, Yang Huang, Thomas Elder

04:05 PM

(447c) Novel Inverse Isotope Effect for Cellulase Hydrolysis of Deuterated Switchgrass
Samarthya Bhagia, Xianzhi Meng, John Dunlap, Barbara R. Evans, Garima Bali, Jihua Chen, Kimberly S. Reeves, Hoi Chun Ho, Brian H. Davison, Arthur Ragauskas

04:30 PM

(447d) Synthesis of High Biomass Content UV-Curable Epoxy Acrylate Oligomer with Cardanol
Hao Pang, Bing Liao, Zhe Ma, Yuliang Mai, Wu Wen, Min Gao, Yongqiang Dai, Lei Zhang

04:55 PM

(447e) Dissolution of Cellulosic Particles: Population Ensemble Modeling Informs Efficient Woody Biomass Processing
Mohammad Ghasemi, Marina Tsianou, Paschalis Alexandridis