Ming-Hsun Cheng
Recent Publications
- Engineering and Evolution of Yarrowia lipolytica for Producing Lipids from Lignocellulosic Hydrolysates
- Sustainable Co-Production of Plant Lipids and Cellulosic Sugars from Transgenic Energycane at an Industrially Relevant Scale: A Proof of Concept for Alternative Feedstocks
- Designer Xylose-Acetic Acid Enriched Hydrolysate from Bioenergy Sorghum, Oilcane, and Energycane Bagasses
- The Effects of Sequential Hydrothermal-Mechanical Refining Pretreatment on Cellulose Structure Changes and Sugar Recoveries
- Cas9-Based Metabolic Engineering of Issatchenkia orientalis for Enhanced Utilization of Cellulosic Hydrolysates
- Conversion of High-Solids Hydrothermally Pretreated Bioenergy Sorghum to Lipids and Ethanol Using Yeast Cultures
- Economic Perspective on Ethanol and Biodiesel Coproduction from Industrial Hemp
- Variability in Structural Carbohydrates, Lipid Composition, and Cellulosic Sugar Production from Industrial Hemp Varieties
- High Solids Loading Biorefinery for the Production of Cellulosic Sugars from Bioenergy Sorghum
- Production of Xylose-Enriched Hydrolysate from Bioenergy Sorghum and its Conversion to β-Carotene Using an Engineered Saccharomyces cerevisiae
- Field Productivities of Napier Grass for Production of Sugars and Ethanol
- Economic Analysis of Cellulosic Ethanol Production from Sugarcane Bagasse Using a Sequential Deacetylation, Hot Water and Disk Refining Pretreatment Processes
- Sugar Production from Bioenergy Sorghum by Using Pilot-Scale Continuous Hydrothermal Pretreatment Combined with Disk Refining
- The Costs of Sugar Production from Different Feedstocks and Processing Technologies
Recent Datasets
- Engineering and Evolution of Yarrowia lipolytica for Producing Lipids from Lignocellulosic Hydrolysates
- Sustainable Co-Production of Plant Lipids and Cellulosic Sugars from Transgenic Energycane at an Industrially Relevant Scale: A Proof of Concept for Alternative Feedstocks
- Production of Designer Xylose-Acetic Acid Enriched Hydrolysate from Bioenergy Sorghum, Oilcane, and Energycane Bagasses
- The Effects of Sequential Hydrothermal-Mechanical Refining Pretreatment on Cellulose Structure Changes and Sugar Recoveries
- Conversion of High-Solids Hydrothermally Pretreated Bioenergy Sorghum to Lipids and Ethanol Using Yeast Cultures
- Economic Perspective of Ethanol and Biodiesel Coproduction from Industrial Hemp
- Variability in Structural Carbohydrates, Lipid Composition, and Cellulosic Sugar Production from Industrial Hemp Varieties
- High Solids Loading Biorefinery for the Production of Cellulosic Sugars from Bioenergy Sorghum
- Sugar Production from Bioenergy Sorghum by Using Pilot-Scale Continuous Hydrothermal Pretreatment Combined with Disk Refining