Special Issue: Corn Stover Conversion to Biofuel: DOE's Preparation for Readiness in 2012 / Guest Edited by M. Himmel
531-534
Guest Editorial
Corn stover conversion to biofuels: DOE’s preparation for readiness in 2012
Michael E. Himmel
535-545
Technoeconomic analysis of the dilute sulfuric acid and enzymatic hydrolysis process for the conversion of corn stover to ethanol
Andy Aden and Thomas Foust
547-565
An economic and environmental comparison of a biochemical and a thermochemical lignocellulosic ethanol conversion processes
Thomas D. Foust, Andy Aden, Abhijit Dutta and Steven Phillips
567-576
Improved multivariate calibration models for corn stover feedstock and dilute-acid pretreated corn stover
Edward J. Wolfrum and Amie D. Sluiter
577-585
Correlating detergent fiber analysis and dietary fiber analysis data for corn stover collected by NIRS
Edward J. Wolfrum, Aaron J. Lorenz and Natalia deLeon
587-597
Does the cellulose-binding module move on the cellulose surface?
Yu-San Liu, Yining Zeng, Yonghua Luo, Qi Xu and Michael E. Himmel, et al.
599-619
Corn stover availability for biomass conversion: situation analysis
J. Richard Hess, Kevin L. Kenney, Christopher T. Wright, Robert Perlack and Anthony Turhollow
621-639
Assessing corn stover composition and sources of variability via NIRS
David W. Templeton, Amie D. Sluiter, Tammy K. Hayward, Bonnie R. Hames and Steven R. Thomas
641-647
Measuring the crystallinity index of cellulose by solid state 13C nuclear magnetic resonance
Sunkyu Park, David K. Johnson, Claudia I. Ishizawa, Philip A. Parilla and Mark F. Davis
649-659
Summary of findings from the Biomass Refining Consortium for Applied Fundamentals and Innovation (CAFI): corn stover pretreatment
Richard T. Elander, Bruce E. Dale, Mark Holtzapple, Michael R. Ladisch and Y. Y. Lee, et al.
661-675
Extraction and characterization of native heteroxylans from delignified corn stover and aspen
Radnaa Naran, Stuart Black, Stephen R. Decker and Parastoo Azadi
677-686
Can delignification decrease cellulose digestibility in acid pretreated corn stover?
Claudia I. Ishizawa, Tina Jeoh, William S. Adney, Michael E. Himmel and David K. Johnson, et al.
687-697
Fungal glycoside hydrolases for saccharification of lignocellulose: outlook for new discoveries fueled by genomics and functional studies
Iva Jovanovic, Jon K. Magnuson, Frank Collart, Barbara Robbertse and William S. Adney, et al.
699-709
Probing the role of N-linked glycans in the stability and activity of fungal cellobiohydrolases by mutational analysis
William S. Adney, Tina Jeoh, Gregg T. Beckham, Yat-Chen Chou and John O. Baker, et al.
711-722
The impact of cell wall acetylation on corn stover hydrolysis by cellulolytic and xylanolytic enzymes
Michael J. Selig, William S. Adney, Michael E. Himmel and Stephen R. Decker
723-727
Evidence for a novel mechanism of microbial cellulose degradation
David B. Wilson
729-741
Utilization and transport of l-arabinose by non-Saccharomyces yeasts
Eric P. Knoshaug, Mary Ann Franden, Boris U. Stambuk, Min Zhang and Arjun Singh
743-762
Role of pretreatment and conditioning processes on toxicity of lignocellulosic biomass hydrolysates
Philip T. Pienkos and Min Zhang