University of British Columbia
Forest Products Biotechnology and Bioenergy Group
2424 Main Mall
Vancouver,
BC
Canada
V6T 1Z4
Email:
jack.saddler@ubc.ca
Papers:
2-3
Targeted hemicellulose removal and lignin modification greatly enhance cellulose accessibility/hydrolysis and overall sugar recovery from steam treated wood using low enzyme loadings
10-1
Can “fibrillated” nanocellulosic fibers provide high value by-products for a forest based biorefinery?
12-6
Enhanced delignification of steam-pretreated poplar by a bacterial laccase
12-7
The effect of pretreatment on enzyme synergism between various lignocellulolytic enzymes on hardwoods - a comparative evaluation of Populus, Eucalyptus and Acacia spp. as potential feedstocks for sugar release
21-1
Improved enzyme-substrate interactions enhance cellulose hydrolysis when using high biomass concentrations and low enzyme loadings
T30
Which components in the water soluble faction inhibit enzymatic hydrolysis of steam pretreated biomass and how can we ameliorate this inhibition
T94
A chemo-enzymatic approach to converting a conventional Kraft pulp to a higher value, dissolving pulp grade
T95
The production of lipid from the hydrolyzate of the steam pretreated substrates