姓名
方真
性别
专业
职称
其他
单位
中国科学院西双版纳热带植物园
电子邮件
ZHENFANG@XTBG.AC.CN
现研究领域
农业生物环境与能源工程
主要著作
1. R.L. Wang, J.C. Wang, R.H. Xu, Zhen Fang, A.Z. Liu, Oil Production by the Oleaginous Yeast Lipomyces starkeyi using Diverse Carbon Sources, Bioresources, 9(4), 7027-7040 (2014). 2. F. Guo, Zhen Fang*, Shape-controlled Synthesis of Activated Bio-chars by Surfactant-templated Ionothermal Carbonization in Acidic Ionic Liquid and Activation with Carbon Dioxide, Bioresources, 9(2), 3369-3383 (2014). 3. S.X. Chin, C.H. Chia, Zhen Fang*, S. Zakaria, X.K. Li, F. Zhang, A Kinetic Study on Acid Hydrolysis of Oil Palm Empty Fruit Bunch (EFB) Fibres Using a Microwave Reactor System, Energy & Fuels, 28(4), 2589-2597 (2014). 4. B.J. Xue, J. Luo, F. Zhang, Zhen Fang*, Biodiesel Production from Soybean and Jatropha Oils by Magnetic CaFe2O4-Ca2Fe2O5-Based Catalyst, Energy, 68, 584-591 (2014). 5. J. Luo, Zhen Fang*, R.L. Smith Jr., Ultrasound-enhanced Conversion of Biomass to Biofuels, Progress in Energy and Combustion Science, 41, 56-93 (2014). 6. S.P. Fan, L.Q. Jiang, C.H. Chia, Zhen Fang*, S. Zakaria, K.L. Chee, High Yield Production of Sugars from Deproteinated Palm Kernel Cake under Microwave Radiation via Dilute Sulfuric Acid Hydrolysis, Bioresource Technology, 153, 69-78 (2014). 7. Y.D. Long, Zhen Fang*, T.C. Su, Q. Yang, Co-production of Biodiesel and Hydrogen from Rapeseed and Jatropha Oils with Sodium Silicate and Ni Catalysts, Applied Energy, 113, 1819-1825 (2014). 8. L.Q. Jiang, Zhen Fang*, X.K. Li, J. Luo, S.P. Fan, Combination of Dilute Acid and Ionic Liquid Pretreatments of Sugarcane Bagasse for Enzymatic Saccharification, Process Biochemistry, 48, 1942-1946 (2013). 9. L.Q. Jiang, Zhen Fang*, X.K. Li, J. Luo, Production of 2,3-Butanediol from Cellulose and Jatropha Hulls after Ionic Liquid Pretreatment and Dilute-Acid Hydrolysis, AMB Express, 3:48 (2013). 10. F. Zhang, Zhen Fang*, Hydrolysis of Cellulose to Glucose at the Low Temperature of 423 K with CaFe2O4-based Solid Catalyst, Bioresource Technology, 124, 440-445 (2012). 11. Y.D. Long, Zhen Fang*, Hydrothermal Conversion of Glycerol to Chemicals and Hydrogen: Review and Perspective, Biofuels Bioproducts and Biorefining, 6, 686-702 (2012). 12. F. Guo, Zhen Fang*, T.J. Zhou, Conversion of Fructose and Glucose into 5-Hydroxymethylfurfural with Lignin-Derived Carbonaceous Catalyst under Microwave Irradiation in Dimethyl Sulfoxide-Ionic Liquid Mixtures, Bioresource Technology, 112, 313-318 (2012). 13. L.Q. Jiang, Zhen Fang*, F. Guo, L.B. Yang, Production of 2,3-Butanediol from Acid Hydrolysates of Jatropha Hulls with Klebsiella Oxytoca, Bioresource Technology, 107, 405-410 (2012). 14. X.F. Tian, Zhen Fang*, F. Guo, Impact and Prospective of Fungal Pretreatment of Lignocellulosic Biomass for Enzymatic Hydrolysis, Biofuels Bioproducts and Biorefining, 6, 335-350 (2012) (invited review). 15. F. Guo, Zhen Fang*, C. Xu, R.L. Smith Jr., Solid Acid Mediated Hydrolysis of Biomass for Producing Biofuels, Progress in Energy and Combustion Science, 38, 672-690 (2012). (invited review). 16. C.Y. Yang, Zhen Fang (co-first-author)*, B. Li, Y.F. Long, Review and Prospects of Jatropha Biodiesel Industry in China, Renewable & Sustainable Energy Reviews, 16, 2178-2190 (2012). 17. F. Guo, N.N. Wei, Z.L. Xiu, Zhen Fang, Transesterification Mechanism of Soybean Oil to Biodiesel Catalyzed by Calcined Sodium Silicate, Fuel, 93, 468-472 (2012). 18. X.F. Tian, Zhen Fang*, D. Jiang, X.Y. Sun, Pretreatment of Microcrystalline Cellulose in Organic Electrolyte Solutions for Enzymatic Hydrolysis, Biotechnology for biofuels, 4:53 (2011). 19. F.L. Pua, Zhen Fang*, S. Zakaria, C.H. Chia, F. Guo, Direct Production of Biodiesel from High-Acid Value Jatropha Oil with Solid Acid Catalyst Derived from Lignin, Biotechnology for biofuels, 4:56 (2011). 20. Zhen Fang*, F. Zhang, H.Y. Zeng, F. Guo, Production of Glucose by Hydrolysis of Cellulose at 423 K in the Presence of Activated Hydrotalcite Nanoparticles, Bioresource Technology, 102, 8017-8021 (2011). 21. Y.D. Long, F. Guo, Zhen Fang*, X.F. Tian, L.Q. Jiang, F. Zhang, Production of Biodiesel and Lactic Acid from Rapeseed Oil Using Sodium Silicate as Catalyst, Bioresource Technology, 102, 6884-6886 (2011). 22. F. Guo, Zhen Fang*, X.F. Tian, Y.D. Long, L.Q. Jiang, One-step Production of Biodiesel from High-acid Value Jatropha Oil in Ionic Liquids, Bioresource Technology, 102, 6469-6472 (2011). 23. Zhen Fang*, Noncatalytic Fast Hydrolysis of Wood, Bioresource Technology, 102, 3587-3590 (2011). 24. X. Deng, Zhen Fang*, Y.H. Liu, C.L. Yu, Production of Biodiesel from Jatropha Oil Catalyzed by Nanosized Solid Basic Catalyst, Energy, 36, 777-784 (2011). 25. R.L. Smith, Jr., Zhen Fang, Properties and Phase Equilibria of Fluid Mixtures as the Basis for Developing Green Chemical Processes, Fluid Phase Equilibria, 302, 65-73 (2011) (invited review). 26. Zhen Fang*, R.L. Smith Jr., J.A. Kozinski, T. Minowa, K. Arai, Reaction of D-Glucose in Water at High Temperatures (410 oC) and Pressures (180 MPa) for the Production of Dyes and Nano-particles, The Journal of Supercritical Fluids, 56, 41-47 (2011). 27. X. Deng, Zhen Fang*, Y.H. Liu, Ultrasonic Transesterification of Jatropha curcas L. Oil to Biodiesel by a Two-step Process, Energy Conversion and Management, 51, 2802-2807 (2010). 28. C.Y. Yang, X. Deng, Zhen Fang*, D.P. Peng, Selection of High-Oil Yield Seed Sources of Jatropha curcas L. for Biodiesel Production, Biofuels, 1(5), 705-717 (2010). 29. R.L. Smith, Jr., Zhen Fang, Techniques, Applications and Future Prospects of Diamond Anvil Cells for Studying Supercritical Water Systems, The Journal of Supercritical Fluids, 47, 431-446 (2009) (invited review). 30. Zhen Fang*, C. Fang, Complete Dissolution and Hydrolysis of Wood in Hot Water, AIChE Journal, 54(10), 2751-2758 (2008). 31. H. Assaaoudi, Z. Fang, I.S. Butler, and J.A. Kozinski, Synthesis of Erbium Hydroxide Microflowers and Nanostructures in Subcritical Water, Nanotechnology, 19 185606 (8pp) (2008). 32. Zhen Fang*, T. Sato, R.L. Smith Jr., H. Inomata, K. Arai, and J.A. Kozinski, Reaction Chemistry and Phase Behavior of Lignin in High-Temperature and Supercritical Water, Bioresource Technology, 99(9), 3424-3430 (2008). 33. Zhen Fang*, T. Minowa, C. Fang, R.L. Smith Jr., H. Inomata, and J.A. Kozinski, Catalytic Hydrothermal Gasification of Cellulose and Glucose, International Journal of Hydrogen Energy, 33(3), 981- 990 ( 2008 ). 34. Z. Fang*, H. Assaaoudi, A. Sobhy, M .M. Barsan, I.S. Butler, R.I.L. Guthrie, J.A. Kozinski, Use of Oxygen and Methanol in Promoting the Destruction of Decachlorobiphenyl in Supercritical Water, Fuel, 87 353-358 (2008). 35. H. Assaaoudi, Z. Fang, J.E. Barralet, A.J. Wright, I.S. Butler, and J.A. Kozinski, Synthesis, Characterization and Properties of Erbium-based Nanofibers and Nanorods, Nanotechnology, 18 445606 (7pp) (2007). 36. Z. Fang*, H. Assaaoudi, R.I.L. Guthrie, J.A. Kozinski, I.S. Butler, Continuous Synthesis of Tin and Indium Oxide Nanoparticles in Sub- and Supercritical Water, Journal of the American Ceramic Society, 90(8), 2367-2371 (2007). 37. Zhen Fang*, H. Lin, H. Assaaoudi, X. Wang, I.S. Butler, and J.A. Kozinski, Synthesis of Nanocrystalline SnO2 in Supercritical Water, Journal of Nanoparticle Research, 9, 683-687 (2007). 38. H. Assaaoudi, Zhen Fang, I.S. Butler, D.A. Ryan, and J.A. Kozinski, Characterization of A New Magnesium Hydrogen Orthophosphate Salt, Mg3.5H2(PO4)3, Synthesized in Supercritical Water, Solid State Sciences, 9, 385-393 (2007). 39. R. Hashaikeh, Z. Fang, J. Hawari, I.S. Butler, J.A. Kozinski, Hydrothermal Dissolution of Willow in Hot Compressed Water as a Model for Biomass Conversion, Fuel, 86, 1614-1622 (2007). 40. Y. Jia, L. Xu, Zhen Fang, and G.P. Demopoulos, Observation of Surface Precipitation of Arsenate on Ferrihydrite, Environmental Science & Technology, 40(10), 3248-3253 (2006). 41. H. Assaaoudi, Zhen Fang, D.H. Ryan, I.S. Butler, and J. Kozinski, Hydrothermal Synthesis, Crystal Structure, and Vibrational and Mössbauer Spectra of a New Tricationic Orthophosphate - KCo3Fe(PO4)3, Canadian Journal of Chemistry, 84, 124-133 (2006). 42. R. Hashaikeh, Z. Fang, I.S. Butler, and J.A. Kozinski, Sequential Hydrothermal Gasification of Biomass to Hydrogen, Proceedings of the Combustion Institute, 30(2), 2231-2237 (2005). 43. Z. Fang*, S. K. Xu, R.L. Smith Jr., J.A. Kozinski, and K. Arai, Destruction of Deca-chlorobiphenyl in Supercritical Water under Oxidizing Conditions with and without Na2CO3, The Journal of Supercritical Fluids, 33(3), 247-258 (2005). 44. Z. Fang*, T. Minowa, R.L. Smith Jr., T. Ogi, and J.A. Kozinski, Liquefaction and Gasification of Cellulose with Na2CO3 and Ni in Subcritical Water at 350 oC. Industrial & Engineering Chemistry Research, 43(10), 2454-2463 (2004). 45. Z. Fang*, S. Xu, I.S. Butler, R.L. Smith Jr., and J.A. Kozinski, Destruction of Decachlorobiphenyl Using Supercritical Water Oxidation, Energy & Fuels, 18(5), 1257-1265 (2004). 46. S. Xu, Zhen Fang, and J.A. Kozinski, Decomposition of Selected Organic Wastes during Oxidation in Supercritical Water, Clean Air: International Journal on Energy for a Clean Environment, 5(2), 39-52, (2004). 47. S. Xu, Zhen Fang, and J. A. Kozinski, Oxidation of Naphthalene in Supercritical Water up to 420 oC and 30 MPa, Combustion Science and Technology, 175(2), 291-318 (2003). 48. Zhen Fang*, S.K. Xu, and J.A. Kozinski, Flameless Oxidation of Chlorinated Wastes in Supercritical Water using Sodium Carbonate as the Oxidation Stimulant, Proceedings of the Combustion Institute, 29(Part 2), 2485-2492 (2002). 49. A. Sobhy, Z. Fang, S. Xu, and J.A. Kozinski, Supercritical Water Combustion of Organic Residues from Nuclear Plants, Proceedings of the Combustion Institute, 29(Part 2), 2493-2500 (2002). 50. Zhen Fang, and J.A. Kozinski, A Study of Rubber Liquefaction in Supercritical Water Using DAC-Stereomicroscopy and FT-IR Spectrometry, Fuel, 81(7), 935-945 (2002). 51. Zhen Fang, and J.A. Kozinski, A Comparative Study of Polystyrene Decomposition in Supercritical Water and Air Environments Using Diamond Anvil Cell, Journal of Applied Polymer Science, 81(14), 3565-3577 (2001). 52. Zhen Fang, and J.A. Kozinski, Phase Changes of Benzo(a)pyrene in Supercritical Water Combustion, Combustion and Flame, 124(1-2), 255-267 (2001). 53. Zhen Fang*, and J.A. Kozinski, Phase Behavior and Combustion of Hydrocarbon-Contaminated Sludge in Supercritical Water at Pressures up to 822 MPa and Temperatures up to 535 C, Proceedings of the Combustion Institute, 28(Part 2), 2717-2725 (2000). 54. Zhen Fang, S. Xu, and J.A. Kozinski, Behavior of Metals during Combustion of Industrial Organic Wastes in Supercritical Water, Industrial & Engineering Chemistry Research, 39(12), 4536-4542 (2000). 55. M. Sasaki, Zhen Fang, Y. Fukushima, T. Adschiri, and K. Arai, Dissolution and Hydrolysis of Cellulose in Subcritical and Supercritical Water, Industrial & Engineering Chemistry Research, 39(8), 2883-2890 (2000). (Ranked 30th in “95 Most-Cited I&EC Research Publications”). (Times Cited: 439-google). 56. R.L. Smith Jr., Z. Fang, H. Inomata, and K. Arai, Phase Behavior and Reaction of Nylon 6/6 in Water at High Temperatures and Pressures, Journal of Applied Polymer Science, 76(7), 1062-1073 (2000). 57. Z. Fang, R.L. Smith, Jr., H. Inomata, and K. Arai, Phase Behavior and Reaction of Polyethylene in Supercritical Water at Pressure up to 2.6 GPa and Temperature up to 670 oC, The Journal of Supercritical Fluids, 16, 207-216 (2000). 58. T. Adschiri, T. Sato, H. Shibuichi, Z. Fang, S. Okazaki, and K. Arai, Extraction of Taiheiyo coal with supercritical water - HCOOH mixture, Fuel, 79, 243-248, (2000). 59. Zhen Fang, R.L. Smith, Jr., H. Inomata, and K. Arai, Phase Behavior and Reaction of Polyethylene Terephthalate - Water Systems at Pressures up to 173 MPa and Temperatures up to 490 oC, The Journal of Supercritical Fluids, 15, 229-243 (1999). 60. T. Minowa, Zhen Fang (Fang Zhen) and T. Ogi, Cellulose Decomposition in Hot-compressed Water with Alkali or Nickel Catalyst, The Journal of Supercritical Fluids, 13, 253-259 (1998). 61. T. Minowa and Zhen Fang, Hydrogen Production from Cellulose in Hot Compressed Water Using Reduced Nickel Catalyst: Products Distribution at Different Reaction Temperatures, Journal of Chemical Engineering of Japan, 31(3), 488-491 (1998). 62. T. Minowa, Zhen Fang, T. Ogi, and G. Varhegyi, Decomposition of Cellulose and Glucose in Hot Compressed Water under Catalyst-free Condition, Journal of Chemical Engineering of Japan, 31(1), 131-134 (1998). 63. T. Minowa, Zhen Fang (Fang Zhen), T. Ogi, and G. Varhegyi, Liquefaction of Cellulose in Hot Compressed Water Using Sodium Carbonate: Products Distribution at Different Reaction Temperatures, Journal of Chemical Engineering of Japan, 30(1), 186-190 (1997).