金明傑(南京理工大學教授)

2008.08-2012.05 密西根州立大學（美國） 化學工程 博士

2005.09-2008.06 南京工業大學 生物化工 碩士

2001.09-2005.06 南京工業大學 生物工程 學士

2015.10 至今 南京理工大學 教 授

2014.12-2015.09 美國Edeniq 公司 研發科學家

2013.10-2014.11 密西根州立大學（美國） 助理教授（固定任期）

2012.05-2013.10 密西根州立大學（美國） 博士後

生物煉製、生物能源、發酵工程、代謝工程、合成生物學

主要從事生物質轉化生產燃料乙醇、微生物油脂及其它生物基產品的研究

·中國化工學會生物化工專委會-青年學者工作委員會秘書長

·編委，SCI期刊：Biofuels, Bioproducts and Biorefining

·執行編委，期刊：生物加工過程

·江蘇省歐美同學會常務理事

52. Xiujuan Li, Sitong Chen, He Huang*, Mingjie Jin*. In-situ corn fiber conversion improves ethanol yield in corn dry-mill process. Industrial Crops and Products2018, 113: 217-224.

51. Cory Sarks*, Mingjie Jin*, Venkatesh Balan and Bruce E Dale. Fed-batch hydrolysate addition and cell separation by settling in high cell density lignocellulosic ethanol fermentations on AFEX™ corn stover in the Rapid Bioconversion with Integrated recycling Technology process. Journal of Industrial Microbiology & Biotechnology2017, 44(9):1261-1272.

50. Mingjie Jin*, Yanping Liu, Leonardo da Costa Sousa, Bruce E. Dale, Venkatesh Balan. Development of Rapid Bioconversion with Integrated recycle Technology for ethanol production from Extractive Ammonia pretreated corn stover. Biotechnology and Bioengineering2017, 114(8): 1713-1720.

49. Hai Shu, Xiaolei Wu, Baojing Zhou, Yingbin Han, Mingjie Jin, Jing Zhu*, Xiaofeng Bao*. Synthesis and evaluation of a novel fluorescent chemosensor for glutathione based on a rhodamine B and N-[4-(carbonyl) phenyl] maleimide conjugate and its application in living cell imaging. Dyes and Pigments2017, 136: 535-542.

48. Margaret Magyar, Leonardo da Costa Sousa, Mingjie Jin, Cory Sarks, Venkatesh Balan*. Conversion of apple pomace waste to ethanol at industrial relevant conditions. Applied Microbiology and Biotechnology2016, 100(16): 7349-7358.

47. Margaret Magyar,Mingjie Jin, Leonardo da Costa Sousa, Salah Mohammed Aleid, Mohammed Refdan Al-Hajhoj, Balakrishnan Sudhakar, Venkatesh Balan*.Empty Fruit Bunch from Date Palm Industries-A Sustainable Resource for Producing Biofuels and Industrial Solvents. Industrial Biotechnology2016, 12(4): 235-244.

46. Cory Sarks, Bryan D. Bals*, Jim Wynn, Farzaneh Teymouri, Stefan Schwegmann, Karyn Sanders, Mingjie Jin, Venkatesh Balan, Bruce E. Dale. Scaling up and benchmarking of ethanol production from pelletized pilot scale AFEX treated corn stover using Zymomonas mobilis8b. Biofuels2016, 7(3): 253-262.

45. Mingjie Jin*, Cory Sarks, Bryan D. Bals, Nick Posawatz, Christa Gunawan, Bruce E. Dale, Venkatesh Balan.Toward high solids loading process for lignocellulosic biofuel production at a low cost. Biotechnology and Bioengineering2017, 114(5):980-989.

44.Mingjie Jin*, Leonardo da Costa Sousa, Christopher Schwartz, Yuxin He, Cory Sarks, Christa Gunawan, Venkatesh Balan* and Bruce E. Dale*. Toward lower cost cellulosic biofuel production using ammonia based pretreatment technologies. Green Chemistry2016, 18: 957-966.

43. Mingjie Jin*, Patricia J. Slininger, Bruce S. Dien, Suresh Waghmode, Bryan R. Moser, Andrea Orjuela, Leonardo da Costa Sousa, Venkatesh Balan*. Microbial lipid-based lignocellulosic biorefinery: feasibility and challenges. Trends in Biotechnology2015, 33(1): 43-54.

42. Ya-Ping Xue, Mingjie Jin*, Andrea Orjuela, Patricia J. Slininger, Bruce S. Dien, Bruce E. Dale, Venkatesh Balan. Microbial lipid production from AFEXpretreated corn stover. RSC Advances2015, 5: 28725-28734.

41. Xin Wang, Mingjie Jin*, Venkatesh Balan, A. Daniel Jones, Xia Li, Bing-Zhi Li*, Bruce E. Dale and Ying-Jin Yuan. Comparative metabolic profiling revealed limitations in xylose-fermenting yeast during co-fermentation of glucose and xylose in the presence of inhibitors. Biotechnology and Bioengineering2014,111(1):152-164.

40. Cory Sarks*, Mingjie Jin*, Trey K Sato, Venkatesh Balan and Bruce E Dale. Studying the rapid bioconversion of lignocellulosic sugars into ethanol using high cell density fermentations with cell recycle. Biotechnology for Biofuels2014, 7:73.

39. Alan Culbertson, Mingjie Jin*, Leonardo da Costa Sousa, Bruce E. Dale and Venkatesh Balan. In-house cellulase production from AFEX™ pretreated corn stover using Trichoderma reeseiRUT C-30. RSC Advances2013, 3 (48): 25960-25969.

38. Mingjie Jin*, William Bothfeld, Samantha Austin, Trey K. Sato, Alex La Reau, Haibo Li, Marcus Foston, Christa Gunawan, Richard D. LeDuc, John F. Quensen, Mick Mcgee, Nirmal Uppugundla, Alan Higbee, Ruwan Ranatunga, Charles W. Donald, Gwen Bone, Arthur J. Ragauskas, James M. Tiedje, Daniel R. Noguera, Bruce E. Dale, Yaoping Zhang*, Venkatesh Balan*. Effect of storage conditions on the stability and fermentability of enzymatic lignocellulosic hydrolysate. Bioresource Technology2013, 147: 212-220.

37. Mingjie Jin*, Cory Sarks, Christa Gunawan, Benjamin D Bice, Shane P Simonett, Ragothaman Avanasi Narasimhan, Laura B Willis, Bruce E Dale, Venkatesh Balan* and Trey K Sato*. Phenotypic selection of a wild Saccharomyces cerevisiaestrain for simultaneous saccharification and co-fermentation of AFEXpretreated corn stover. Biotechnology for Biofuels2013, 6:108.

36. Mingjie Jin*, Christa Gunawan, Venkatesh Balan, Xiurong Yu and Bruce E. Dale. Continuous SSCF of AFEXpretreated corn stover for enhanced ethanol productivity using commercial enzymes and Saccharomyces cerevisiae424A (LNH-ST). Biotechnology and Bioengineering2013, 110(5):1302-1311.

35. Mingjie Jin*, Christa Gunawan, Nirmal Uppugundla, Venkatesh Balan and Bruce E. Dale. A novel integrated biological process for cellulosic ethanol production featuring high ethanol productivity, enzyme recycling, and yeast cells reuse. Energy & Environmental Science2012,5 (5): 7168-7175.

34.Mingjie Jin*, Christa Gunawan, Venkatesh Balan and Bruce E. Dale. Consolidated bioprocessing (CBP) of AFEXpretreated corn stover for ethanol production using Clostridium phytofermentansat a high solids loading. Biotechnology and Bioengineering2012,109(8): 1929-1936.

33. Mingjie Jin*, Christa Gunawan, Venkatesh Balan, Ming W. Lau and Bruce E. Dale. Simultaneous saccharification and co-fermentation (SSCF) of AFEXpretreated corn stover for ethanol production using commercial enzymes and Saccharomyces cerevisiae424A(LNH-ST). Bioresource Technology2012, 110: 587-594.

32. Mingjie Jin*, Venkatesh Balan, Christa Gunawan and Bruce E. Dale. Quantitatively understanding reduced xylose fermentation performance in AFEXtreated corn stover hydrolysate using Saccharomyces cerevisiae424A (LNH-ST) and Escherichia coliKO11. Bioresource Technology2012, 111: 294-300.