Tik:Publications: Difference between revisions
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(New page: {{Tik}} <h1><center>Publications</center></h1> ==Journal Publications== #Wang Y., Huang W., '''Sathitsuksanoh N.''', Zhu Z., and Zhang YHP, 2010. Biohydrogenation from Biomass Sugar Me...) |
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==Journal Publications== | ==Journal Publications== | ||
#Xue B., Escamilla-Treviño L.L., '''Sathitsuksanoh N.''', Shen Z., Shen H., Zhang YHP, Dixon R., Zhao B., 2011. Silencing of 4-Coumarate: Coenzyme A ligase in switchgrass leads to reduced lignin content and improved fermentable sugar yields for biofuel production. '''''New Phytologist''''' (in press) | |||
#Wang Y., Huang W., '''Sathitsuksanoh N.''', Zhu Z., and Zhang YHP, 2010. Biohydrogenation from Biomass Sugar Mediated by in vitro Synthetic Enzymatic Pathways. '''''Chemistry & Biology''''' ( | #Zhang XZ, '''Sathitsuksanoh N.''', Zhu ZG, Zhang YHP., 2011. One-Step Production of Lactate from Cellulose as Sole Carbon Source without Any Other Organic Nutrient by Recombinant Cellulolytic Bacillus subtilis. '''''Metabolic Engineering''''' (in press) | ||
#Wang Y., Huang W., '''Sathitsuksanoh N.''', Zhu Z., and Zhang YHP, 2010. Biohydrogenation from Biomass Sugar Mediated by in vitro Synthetic Enzymatic Pathways. '''''Chemistry & Biology''''' 18(3): 371-380 | |||
#'''Sathitsuksanoh N.''', Zhu Z., Wi S., Zhang YHP. Cellulose Solvent-Based Biomass Pretreatment Breaks Highly Ordered Hydrogen Bonds in Cellulose Fibers of Switchgrass. '''''Biotechnology & Bioengineering''''', DOI: 10.1002/bit.22964. | #'''Sathitsuksanoh N.''', Zhu Z., Wi S., Zhang YHP. Cellulose Solvent-Based Biomass Pretreatment Breaks Highly Ordered Hydrogen Bonds in Cellulose Fibers of Switchgrass. '''''Biotechnology & Bioengineering''''', DOI: 10.1002/bit.22964. | ||
#Rollin J., Zhu Z., '''Sathitsuksanoh N.''', Zhang YHP. Increasing cellulose accessibility is more important than removing lignin: A comparison of cellulose solvent-based lignocellulose fractionation and soaking in aqueous ammonia. '''''Biotechnology & Bioengineering''''', DOI: 10.1002/bit.22919. | #Rollin J., Zhu Z., '''Sathitsuksanoh N.''', Zhang YHP. Increasing cellulose accessibility is more important than removing lignin: A comparison of cellulose solvent-based lignocellulose fractionation and soaking in aqueous ammonia. '''''Biotechnology & Bioengineering''''', DOI: 10.1002/bit.22919. | ||
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#Lalvani S.B., Mondal K., '''Sathitsuksanoh N.''', Wiltowski T., and Xiao Y. 2001. Characterization of Ni-P and Fe-P by X-ray Absorption Spectroscopy. '''''Journal of Material Sciences Letters''''' 20(12): 1097-1098. | #Lalvani S.B., Mondal K., '''Sathitsuksanoh N.''', Wiltowski T., and Xiao Y. 2001. Characterization of Ni-P and Fe-P by X-ray Absorption Spectroscopy. '''''Journal of Material Sciences Letters''''' 20(12): 1097-1098. | ||
==Book | ==Book Chapters== | ||
#Rollin J., '''Sathitsuksanoh N.''', Zhu Z., Zhang YHP. 2011. Chapter X. Cellulose Solvent- and Organic Solvent-based Lignocellulose Fractionation (COSLIF). '''''Wiley Encyclopedia of Energy: Science, Technology, and Applications.''''' John Wiley & Sons. pp.xxxx-xxxx. | |||
#'''Sathitsuksanoh N'''., Zhu Z., Rollin J., and Zhang P. 2010. Chapter 16. Lignocellulose fractionation by using cellulose solvent and organic solvent in Bioalcohol production: '''''Biochemical conversion of lignocellulosic biomass''''' (ed. by Waldron, K.). Woodhead Publishing Ltd. pp.122-140. | #'''Sathitsuksanoh N'''., Zhu Z., Rollin J., and Zhang P. 2010. Chapter 16. Lignocellulose fractionation by using cellulose solvent and organic solvent in Bioalcohol production: '''''Biochemical conversion of lignocellulosic biomass''''' (ed. by Waldron, K.). Woodhead Publishing Ltd. pp.122-140. | ||
#Zhang YHP., Zhu Z., Rollin J., and '''Sathitsuksanoh N.''' | #Zhang YHP., Zhu Z., Rollin J., and '''Sathitsuksanoh N.''' 2009. Chapter 20. Advances in cellulose solvent- and organic solvent-based lignocellulose fractionation (COSLIF) in Cellulose Solvents. '''''ACS Symposium Series 1033'''''. Oxford University Press. pp.365-397. | ||
#Lu Y., '''Sathitsuksanoh N.''', Yang H.Y., Chang B.K., Queen A.P., and Tatarchuk B.J. 2005. Chapter 25. Microfibrous Entrapped ZnO/Support Sorbents for High Contacting Efficiency H2S Removal from Reformate Streams in PEMFC Applications in Microreactor Technology and Process Intensification (ed. by Holladay, J.D. and Wang, Y.). '''''ACS Symposium Series 914.''''' Oxford University Press. pp.406-422. | #Lu Y., '''Sathitsuksanoh N.''', Yang H.Y., Chang B.K., Queen A.P., and Tatarchuk B.J. 2005. Chapter 25. Microfibrous Entrapped ZnO/Support Sorbents for High Contacting Efficiency H2S Removal from Reformate Streams in PEMFC Applications in Microreactor Technology and Process Intensification (ed. by Holladay, J.D. and Wang, Y.). '''''ACS Symposium Series 914.''''' Oxford University Press. pp.406-422. |
Revision as of 22:27, 18 June 2011
Journal Publications
Book Chapters
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