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机译:通过离子液体促进的γ-丙酮酮中玉米秸秆的快速溶解预处理:选择性脱节剂和增强的酶促糖化
Guizhou Univ Coll Mat &
Met Dept New Energy Mat &
Engn West Campus Guiyang Guizhou Peoples R China;
Chinese Acad Sci Dalian Inst Chem Phys Dalian Natl Lab Clean Energy Bioenergy Div 457 Zhongshan Rd Dalian Peoples R China;
Chinese Acad Sci Dalian Inst Chem Phys Dalian Natl Lab Clean Energy Bioenergy Div 457 Zhongshan Rd Dalian Peoples R China;
Guizhou Univ Coll Mat &
Met Dept New Energy Mat &
Engn West Campus Guiyang Guizhou Peoples R China;
Guizhou Univ Coll Mat &
Met Dept New Energy Mat &
Engn West Campus Guiyang Guizhou Peoples R China;
Guizhou Univ Coll Mat &
Met Dept New Energy Mat &
Engn West Campus Guiyang Guizhou Peoples R China;
Chinese Acad Sci Dalian Inst Chem Phys Dalian Natl Lab Clean Energy Bioenergy Div 457 Zhongshan Rd Dalian Peoples R China;
Qilu Univ Technol Minist Educ China Key Lab Pulp &
Paper Sci &
Technol Jinan 250353 Shandong Peoples R China;
Guizhou Univ Coll Mat &
Met Dept New Energy Mat &
Engn West Campus Guiyang Guizhou Peoples R China;
Bioenergy; Corn stover; Enzymatic saccharification; Ionic liquids; gamma-Valerolactone;
机译:通过离子液体促进的γ-丙酮酮中玉米秸秆的快速溶解预处理:选择性脱节剂和增强的酶促糖化
机译:玉米秸秆酶解糖化不同离子液体预处理的比较
机译:通过结合离子液体[Bmim] Cl-HCl-水介质和稀NaOH预处理,显着提高高结晶度玉米秸秆的酶促糖化
机译:玉米秸秆的酸性两阶段预处理,用于增强酶糖化
机译:玉米秸秆的氢氧化钠预处理及随后的酶促水解:产量,动力学模型和葡萄糖回收的研究
机译:低液氨水预处理和酶促水解有效地将玉米秸秆糖化
机译:切换稀酸和离子液体预处理的比较:生物质批量,脱鸟类和酶促糖化