Leonardo da Costa Sousa, Ph.D.
Affiliations: | 2014 | Chemical Engineering | Michigan State University, East Lansing, MI |
Area:
Chemical Engineering, Alternative EnergyGoogle:
"Leonardo da Costa Sousa"Parents
Sign in to add mentor| Bruce E. Dale | grad student | 2014 | Michigan State | |
| (Extractive ammonia (EA): A novel ammonia-based pretreatment technology for lignocellulosic biomass.) | ||||
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Publications
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| Xue S, Pattathil S, da Costa Sousa L, et al. (2022) Understanding the structure and composition of recalcitrant oligosaccharides in hydrolysate using high-throughput biotin-based glycome profiling and mass spectrometry. Scientific Reports. 12: 2521 |
| Xie S, Sun S, Lin F, et al. (2019) Mechanism-Guided Design of Highly Efficient Protein Secretion and Lipid Conversion for Biomanufacturing and Biorefining. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). 6: 1801980 |
| Avci U, Zhou X, Pattathil S, et al. (2019) Effects of Extractive Ammonia Pretreatment on the Ultrastructure and Glycan Composition of Corn Stover Frontiers in Energy Research. 7 |
| Mokomele T, da Costa Sousa L, Balan V, et al. (2018) Incorporating anaerobic co-digestion of steam exploded or ammonia fiber expansion pretreated sugarcane residues with manure into a sugarcane-based bioenergy-livestock nexus. Bioresource Technology. 272: 326-336 |
| Zhou L, da Costa Sousa L, Dale BE, et al. (2018) Correction to: 'The effect of alkali-soluble lignin on purified core cellulase and hemicellulase activities during hydrolysis of extractive ammonia-pretreated lignocellulosic biomass'. Royal Society Open Science. 5: 181213 |
| Zhou L, da Costa Sousa L, Dale BE, et al. (2018) The effect of alkali-soluble lignin on purified core cellulase and hemicellulase activities during hydrolysis of extractive ammonia-pretreated lignocellulosic biomass. Royal Society Open Science. 5: 171529 |
| Mokomele T, da Costa Sousa L, Balan V, et al. (2018) Ethanol production potential from AFEX™ and steam-exploded sugarcane residues for sugarcane biorefineries. Biotechnology For Biofuels. 11: 127 |
| Flores-Gómez CA, Escamilla Silva EM, Zhong C, et al. (2018) Conversion of lignocellulosic agave residues into liquid biofuels using an AFEX™-based biorefinery. Biotechnology For Biofuels. 11: 7 |
| Ong RG, Shinde S, da Costa Sousa L, et al. (2018) Pre-senescence Harvest of Switchgrass Inhibits Xylose Utilization by Engineered Yeast Frontiers in Energy Research. 6 |
| Gunawan C, Xue S, Pattathil S, et al. (2017) Comprehensive characterization of non-cellulosic recalcitrant cell wall carbohydrates in unhydrolyzed solids from AFEX-pretreated corn stover. Biotechnology For Biofuels. 10: 82 |