T. Gu's Publication List  (peer reviewed journal papers and books/book chapters only) 

Name in bold face indicates Gu as primary or corresponding author. NACE MIC-related papers are listed here. 
Please e-mail me (gu@ohio.edu) if you want a PDF copy of any publication that your cannot download. 

1. K. Zhao, T. Gu, I. Cruz, A. Kopliku, “Laboratory Investigation of Microbiologically Influenced Corrosion In Pipeline Hydrotest Using Seawater” in Materials Performances, 52, 64-69 (2013).
2. M. Zhou, T. Gu, “The Next Breakthrough in Microbial Fuel Cells and Microbial Electrolysis Cells for Bioenergy and Bioproducts,” Journal of Microbial & Biochemical Technology, S12-003 (2013). (PDF file)
3. M. Zhou, J. Yang, H. Wang, T. Jin, D. J. Hassett, T. Gu, “Bio-electrochemistry of microbial fuel cells and their potential applications in bioenergy” a chapter in Bioenergy Research: Advances & Applications (V. K Gupta, et al., eds.). Elsevier, accepted (2013).
4. T. Gu (Ed.), “Green Biomass Pretreatment for Biofuels Production,” ISBN 978-94-007-6051-6. Springer, Berlin-New York (2013). (PDF file)
5. D. Xu, W. Huang, G. Ruschau, J. Hornemann, J. Wen, and T. Gu, “Laboratory Investigation of MIC Threat Due to Hydrotest  Using Untreated Seawater and Subsequent Exposure to Pipeline Fluids with and without SRB Spiking,” Engineering Failure Analysis, 28, 149-159 (2013). (PDF file)
6. J. Luo, M. Cai, T. Gu, “Pretreatment of Lignocellulosic Biomass Using Green Ionic Liquids.” Chapter 6 in:  Green Biomass Pretreatment for Biofuels Production, pp. 127-153, Springer, Berlin-New York (2013). (PDF file)
7. T. Gu, “Pretreatment of Lignocellulosic Biomass Using Supercritical Carbon Dioxide As A Green Solvent.” Chapter 5 in:  Green Biomass Pretreatment for Biofuels Production, pp. 107-125, Springer, Berlin-New York (2013). (PDF file)
8. M. Zhou, H. Wang, D. J. Hassett, and T. Gu, “Recent Advances in Microbial Fuel Cells (MFCs) and Microbial Electrolysis Cells (MECs) For Wastewater Treatment, Bioenergy and Bioproducts,” Journal of Chemical Technology & Biotechnology, 88, 508-581 (2013). (PDF file)
9. D. Xu, Y Li, T Gu, “D-methionine as a biofilm dispersal signaling molecule enhanced tetrakis hydroxymethyl phosphonium sulfate mitigation of Desulfovibrio vulgaris biofilm and biocorrosion pitting,” Materials and Corrosion, in press (2012). (PDF file)
10. D. Xu, Y Li, T Gu, “A synergistic D-tyrosine and tetrakis hydroxymethyl phosphonium sulfate biocide combination for the mitigation of an SRB biofilm,” World Journal of Microbiology and Biotechnology, 28, 3067-3074 (2012). (PDF file)
11. D. Xu, J. Wen, W. Fu, T. Gu, I. Raad, "D-amino acids for the enhancement of a binary biocide cocktail consisting of THPS and EDDS against an SRB biofilm," World Journal of Microbiology and Biotechnology. 28, 1641-1646 (2012). (PDF file)
12. D.  Xu, J. Wen, T.  Gu, I.  Raad, “Biocide Cocktail Consisting of Glutaraldehyde, Ethylene Diamine Disuccinate (EDDS), and Methanol for the Mitigation of Souring and Biocorrosion,” Corrosion, 68, 994-1002 (2012).
13. M. Tong, Z. Du, T. Gu, "Converting low-grade biomass to produce energy using bio-fuel cells," Chapter 4 in Eco- and Renewable Energy Materials edited Y. Zhou, pp. 73-97, ISBN 978-3-642-33496-2, Springer, Berlin-New York, Dec. (2012). (PDF file)
14. T. Gu, “New Understandings of Biocorrosion Mechanisms and their Classifications,” Journal of Microbial & Biochemical Technology, 4, 3-6 (2012). (PDF file)
15. M. Zhou, T. Jin, Z. Wu, M. Chi, T. Gu, "Microbial Fuel Cells for Bioenergy and Bioproducts," Chapter 8 in Bioenergy and Bioproducts edited by K. Gopalakrishnan, J. van Leeuwen, R. Brown, ISBN 978-1-4471-2323-1, pp. 131-172, Springer, Berlin-New York (2012).  (PDF file)
16. J.-L. Wang, T. Gu, and J.-J. Zhong, "Enhanced Recovery of Antitumor Ganoderic Acid T from Ganoderma lucidum Mycelia by Novel Chemical Conversion Strategy," Biotech. & Bioeng., 109, 754–762 (2012). (PDF file)
17. J. Wen, D. Xu, T. Gu, I. Raad, "A green triple biocide cocktail consisting of a biocide, EDDS and methanol for the mitigation of planktonic and sessile SRB," World Journal of Microbiology and Biotechnology. 28, 431–435 (2012). (PDF file)
18. K. Guo, D. J. Hassett, T. Gu, "Advances in Microbial Fuel Cells for Potential Energy Production from Organic Feed Streams," Chapter 9  in Microbial Biotechnology: Energy and Environment edited by R. Arora, ISBN 978-1845939564, pp. 162-189, CAB International, Oxon, United Kingdom. (2012).
19. L. Huang, S. Cheng, D. J. Hassett, T. Gu, "Wastewater treatment with concomitant bioenergy production using microbial fuel cells" Chapter 14 in: Water Treatment And Pollution Prevention: Advances In Research edited by S. K. Sharma and R. Sanghi, ISBN 978-94-007-4203-1, pp. 405-452, Springer, Berlin-New York. (2012). (PDF file)
20. T. Gu,  M. Liu, K.-S. C. Cheng, S. Ramaswamy, C. Wang, "A General Rate Model Approach for the Optimization of the Core Radius Fraction for Multicomponent Isocratic Elution in Preparative Nonlinear Liquid Chromatography Using Cored Beads," Chemical Engineering Science, 66, 3531–3539 (2011).  (PDF file)
21. N. Narayanaswamy, A. Faik, D. J. Goetz, T. Gu, "Supercritical Carbon Dioxide Pretreatment of Corn Stover and Switchgrass for Lignocellulosic Ethanol Production," Bioresource Technology, 102, 6995-7000 (2011). (PDF file)
22. C.-X. Liang, Y.-B. Li, J.-W. Xu, J.-L. Wang, X.-L. Miao, Y.-J. Tang, T. Gu, J.-J. Zhong, "Enhanced Biosynthetic Gene Expressions and Production of Ganoderic Acids in Static Liquid Culture of Ganoderma lucidum under Phenobarbital Induction," Applied Microbiology and Biotechnology, 86, 1367–1374 (2010). (PDF file)
23. T. Gu, "Radial flow chromatography" in Encyclopedia of Industrial Biotechnology: Bioprocess, Bioseparation, and Cell Technology, M. C. Flickinger (ed.), pp. 1630-1641, ISBN 978-0-471-79930-6, Wiley, New York, published in April 2010.
24. J. Wen, K. Zhao, T. Gu, I. Raad, "Chelators enhanced biocide inhibition of planktonic sulfate-reducing bacterial growth," World Journal of Microbiology and Biotechnology, 26, 1053-1057 (2010). (PDF file)
25. J. Wen, K. Zhao, T. Gu, I. Raad, "A green biocide enhancer for the treatment of sulfate-reducing bacteria (SRB) biofilms on carbon steel surfaces using glutaraldehyde," International Biodeterioration & Biodegradation, 63, 1102–1106 (2009). (PDF file)
26. K. Zhao, J. Wen, T. Gu, A. Kopliku and I. Cruz, "Mechanistic Modeling of Anaerobic THPS Degradation Under Alkaline Condition in the Presence of Mild Steel," in Materials Performances, 62-66, August 2009. (PDF file)
27. L. Wang, D. Ridgway, T. Gu, and M. Moo-Young, "Kinetic Modeling of Cell Growth and Product Formation in Submerged Culture of Recombinant Aspergillus niger," Chemical Engineering Communications, 196, 481-490 (2009). (PDF file).
28. T. Gu (with contributions from H. Chen, Z. Su and G. Ma), “Selection of Biochemical Separation Processes,” an updated subsection in the Perry’s Handbook of Chemical Engineering, 8th Ed., McGraw-Hill, New York, pages 20-71 to 20-84 (2008). 
29. Z. Du, H. Li and T. Gu, “A state of the art review on microbial fuel cells: A promising technology for wastewater treatment and bioenergy,”  Biotechnology Advances, 25, 464–482 (2007). (PDF file)
30. W. Zhou, T. Gu, Z. Su, G. Ma, "Synthesis of macroporous poly(glycidyl methacrylate) microspheres by surfactant reverse micelles swelling method," European Polymer Journal, 43, 4493-4502 (2007). (PDF file)
31. T. Gu and L. Zhang, “Partition Coefficients of Some Antibiotics, Peptides and Amino Acids in Liquid-Liquid Partitioning of the Acetonitrile-Water System At Subzero Temperatures.”  Chemical Engineering Communications, 194, 828 - 834 (2007). (PDF file)
32. W. Zhou, T. Gu, Z. Su, G. Ma, "Synthesis of macroporous poly(styrene-divinyl benzene) microspheres by surfactant reverse micelles swelling method," Polymer, 48, 1981-1988 (2007). (PDF file)
33. T. Gu, G.-J. Tsai, G. T. Tsao, “Synthesis of Rigid Cyclodextrin-Containing Polymeric Resins for Adsorption,” Journal of Inclusion Phenomena and Macrocyclic Chemistry, 56, 375-379 (2006). (PDF file)
34. W. Tang, T. Gu, and J.-J. Zhong, “Separation of Targeted Ganoderic Acids from Ganoderma lucidum by Reversed Phase Liquid Chromatography with Ultraviolet and Mass Spectrometry Detections,” Biochemical Engineering Journal, 32, 205-210 (2006).  (PDF file)
35. J. Xu, E. Shpak, T. Gu, M. Moo-Young, and M. Kieliszewski, “Production of Recombinant Plant Gum With Tobacco Cell Culture in Bioreactor and Gum Characterization.” Biotech. & Bioeng., 90, 578 - 588 (2005). (PDF file)
36. T. Gu, W. Zhou, G. Ma and Z. Su, “Rigid gigaporous chromatographic media and their potential impact on downstream processing,” Particuology, 3, 349-353 (2005). (PDF file)
37. L. Wang, D. Ridgway, T. Gu, and M. Moo-Young, “Bioprocess Strategies to Improve Heterologous Protein Production in Filamentous Fungi.” Biotechnology Advances, 23, 115–129 (2005). (PDF file)
38. H. Huang, T. Gu, and M. Moo-Young, “Data Acquisition and Control of A 22-L B. Braun Fermenter Using LabVIEW.” Chemical Engineering Communications, 192, 137-144  (2005). (PDF file)
39. H. Huang, D. Ridgway, T. Gu and M. Moo-Young, “Enhanced Amylase Production By Bacillus subtilis Using A Dual Exponential Feeding Strategy.” Bioprocess and Biosystems Engineering, 27, 63-69  (2004). (PDF file)
40. T. Gu and M.-J. Syu, “Modeling of Immobilized Cell Columns for Bioconversion and Wastewater Treatment,” Biotechnology Progress, 20, 1460-1466  (2004). (PDF file).
41. L. Wang, D. Ridgway, T. Gu, and M. Moo-Young, “Effects of Process Parameters on Heterologous Protein Production in Aspergillus niger Fermentation.” Journal of Chemical Technology and Biotechnology, 78, 1259-1266 (2003). (PDF file)
42. T. Gu, K.-H. Hsu and M.-J. Syu, “Scale-Up of Affinity Chromatography for Purification of Enzymes and Other Proteins.” Enzyme and Microbial Technology, 33, 433-437 (2003). (PDF file)
43. H. Huang, D. Ridgway, T. Gu, and M. Moo-Young, “A Segregated Model for Product Formation By Bacillus subtilis.” Enzyme and Microbial Technology, 32,  407–413 (2003). (PDF file)
44. Z. Li, T. Gu,  B. Kelder, J. J. Kopchick, “Analysis of Fatty Acids in Mouse Cells Using Reversed-Phase High-Performance Liquid Chromatography.” Chromatographia, 54(7/8), 463-467 (2001). (PDF file)
45. D. O’Donnell, L. Wang, J. Xu, D. Ridgway, T. Gu, and M. Moo-Young, “Enhanced Heterologous Protein Production in Aspergillus niger through pH Control Of Extracellular Protease Activity.” Biochemical Engineering Journal, 8, 187-193 (2001). (PDF file)
46. F. Bai, L. Wang, H. Huang, J. Xu, J. Caesar, D. Ridgway, T. Gu, and M. Moo-Young, “Oxygen mass-transfer performance of low viscosity gas-liquid-solid system in a split-cylinder airlift bioreactor.” Biotechnology Letters, 23, 1109-1113 (2001). (PDF file)
47. J. Xu,  L. Wang, D. Ridgway,  T. Gu, and M. Moo-Young, “Increased Heterologous Protein Production in Aspergillus niger Fermentation Through Extracellular Protease Inhibition by Pelleted Growth.” Biotechnology Progress, 16, 222-227 (2000).  (PDF file)
48. T. Gu, “Liquid-Liquid Partitioning Methods for Bioseparations,” in Handbook of Bioseparations, Satinder Ahuja, Ed., Vol 2, pp. 329-364, Academic Press, New York. (2000).  (PDF file)
49. T. Gu, “Radial Flow Chromatography” in The Encyclopedia of Bioprocess Technology: Fermentation, Biocatalysis, & Bioseparations, M. C. Flickinger and S. W. Drew, Eds., Wiley, New York, 627-639 (1999). (PDF file)
50. T. Gu and Y. Zheng, “A Study of Scale-Up of Reversed-Phase Liquid Chromatography.” Separation and Purification Technology, 15, 41-58 (1999). (PDF file)
51. Z. Li, Y. Gu and T. Gu, “Mathematical Modeling and Scale-Up of Size Exclusion Chromatography.” Biochemical Engineering J., 2, 145-155 (1998). (PDF file)
52. F. Liu, W. Li, D. Ridgway, T. Gu and M. Moo-Young, "Inhibition of extracellular protease secretion by Aspergillus niger using cell immobilization." Biotechnology Letters, 20(6), 539-542 (1998). (PDF file)
53. Y. Zheng, and T. Gu, “Modified van der Waals Equation for the Prediction of Multicomponent Gas Adsorption Isotherms.” J. Colloid and Interface Science, 206 (2), 457-463 (1998). (PDF file)
54. F. Liu, W. Li, D. Ridgway, T. Gu and Z. Shen, “Production of Poly-beta-hydroxybutyrateon Molasses by Recombinant Escherichia coli.” Biotechnology Letters, 20(4), 345-348 (1998). (PDF file)
55. D. N. Pence, and T. Gu, “Liquid-Liquid Equilibrium of the Acetonitrile-Water System for Protein Purification.” Sep. Technol., 6, 261-264 (1996). (PDF file)
56. Y. Zheng, and T. Gu, “Analytical Solution to a Model for the Startup Period for Fixed-Bed Reactors.” Chemical Engineering Science, 51, 3773-3779 (1996). (PDF file)
57. T. Gu, “Mathematical Modeling and Scale-Up of Liquid Chromatography,” ISBN 978-3-540-58884-9, a book published by Springer, Berlin-New York (1995).
58. B. C. Xu, W. Y. Chen, T. Gu, D. Ridgway, P. Wiehl, S. Okada, J. J. Kopchick, “Effects of growth hormone antagonists on 3T3-F442A preadipocyte differentiation.” J. Endocrinology, 146, 131-139 (1995). (PDF file)
59. T. Gu, Y. Zheng, Y. Gu, R. Haldankar, N. Bhalerao, D. Ridgway, P. E. Wiehl, W. Y. Chen, and J. J. Kopchick, “Purification of A Pyrogen-Free Human Growth Hormone Antagonist.” Biotech. & Bioeng., 48, 520-528 (1995). (PDF file)
60. T. Gu, Y. Gu, Y. Zheng, P. E. Wiehl, and J. J. Kopchick, “Phase separation of acetonitrile-water mixture in protein purification.” Sep. Technol.,4, 258-261 (1994). (PDF file)
61. T. Gu, G.-J. Tsai, and G. T. Tsao, “Modeling of Nonlinear Multicomponent Chromatography,” in Advances in Biochemical Engineering/Biotechnology, Vol. 49, 45-71, Springer, Berlin-New York (1993). (PDF file)
62. T. Gu, G.-J. Tsai, and G. T. Tsao, “Multicomponent Affinity Radial Flow Chromatography.” Sep. Technol., 2, 176-182 (1992). (PDF file)
63. Y.-H. Truei, T. Gu, G.-J. Tsai, and G. T. Tsao, “Large-Scale Gradient Elution Chromatography,” in Advances in Biochemical Engineering/Biotechnology, Vol. 47, 1-44, Springer, Berlin-New York (1992). (PDF file)
64. T. Gu, G.-J. Tsai, and G. T. Tsao, “Multicomponent Radial Flow Chromatography,” in Advances in Biochemical Engineering/Biotechnology, Vol. 49, 73-95, Springer, Berlin-New York (1992). (PDF file)
65. T. Gu, Y.-H. Truei, G.-J. Tsai, and G. T. Tsao, “Modeling of Gradient Elution in Multicomponent Nonlinear Chromatography.” Chemical Engineering Science, 47(1), 253-262 (1992). (PDF file,)
66. T. Gu, G.-J. Tsai, and G. T. Tsao, “A Theoretical Study of Multicomponent Radial Flow Chromatography.” Chemical Engineering Science, 46(5/6), 1279-1288, (1991). (PDF file)
67. T. Gu, G.-J. Tsai, and G. T. Tsao, “Study of Multicomponent Adsorption and Chromatography with Uneven Saturation Capacities.” AIChE J., 37(9),1333-1340 (1991). (PDF file)
68. T. Gu, G.-J. Tsai, and G. T. Tsao, “Some Considerations for Optimization of Desorption Chromatography.” Biotech. & Bioeng., 37, 65-70 (1991). (PDF file)
69. T. Gu, G.-J. Tsai, and G. T. Tsao, “Simulation of Multicomponent Elution with Mobile Phase Containing Competing Modifiers.” Sep. Technol., 1, 184-194(1991). (PDF file)
70. T. Gu, G.-J. Tsai, G. T. Tsao, and M. R. Ladisch, “Displacement Effect in Multicomponent Chromatography.” AIChE J., 36(8), 1156-1162 (1990). (PDF file)
71. T. Gu, G.-J. Tsai, and G. T. Tsao, “New Approach to a General Nonlinear Multicomponent Chromatography Model.” AIChE J., 36(5), 784-788 (1990). (PDF file)

Ph.D. Thesis: “Inclusion Chromatography Using Cyclodextrin-Containing Resins and Studies of Nonlinear Chromatographic Theories.” Tingyue Gu, Purdue University, West Lafayette, Indiana, USA, August, 1990 (Major Professor: Dr. G. T. Tsao). (Download Ph.D. Thesis, 7.7MB file)

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