{"id":4786,"date":"2013-08-06T14:58:18","date_gmt":"2013-08-06T14:58:18","guid":{"rendered":"http:\/\/ncesr.unl.edu\/?page_id=4786"},"modified":"2020-11-16T20:21:47","modified_gmt":"2020-11-16T20:21:47","slug":"biofuels-bioenergy","status":"publish","type":"page","link":"https:\/\/ncesr.unl.edu\/?page_id=4786","title":{"rendered":"Biofuels and Bioproducts"},"content":{"rendered":"

Acetylation of Corn Distillers Dried Grains<\/a>
\nReddy, N.,\u00a0 Hu, C., Yan, K., &\u00a0Yang, Y., (2011). \u00a0Applied Energy, 88, 1664-1670.<\/p>\n

A New Dehydrogenase from Clostridium acetobutylicum for Asymmetric Synthesis: Dynamic Reductive Kinetic Resolution Entry into the Taxotere Side Chain<\/a>
\nApplegate, G.A.,\u00a0Cheloha, R.W.,\u00a0\u00a0Nelson, D.L., &\u00a0\u00a0Berkowitz; D.B., (2011). \u00a0Chemical Communications,\u00a047, 2420-2422.<\/p>\n

A Novel Method for the Production of Biodiesel from the Whole Stillage-Extracted Corn Oil<\/a>
\nNoureddini, H.,\u00a0 Bandlamudi, S.R.P., & Guthrie, E. A. (2009).\u00a0Journal of the American Oil Chemical Society, 86, 83-91.<\/p>\n

Anaerobic Digestion of Finishing Cattle Manure<\/a>
\nWatson, A.K., Erickson, G.E, Klopfenstein, T.J., Fernando, S.C., & Harding, J. L., (2013). Nebraska Beef Cattle Report<\/p>\n

BIOFUELS (book chapter)<\/a>
\nDemirel, Y. (2018) 1.22 Biofuels. In: Dincer, I. (ed.), Comprehensive Energy Systems. vol. 1, pp. 875\u2013908. Oxford, Elsevier<\/p>\n

Carbon and Acyl Chain Flux During Stress-Induced Triglyceride Accumulation by Stable Isotopic labeling of the Polar Micr4oalga Coccomyxa subellipsoidea C169<\/a>
\nAllen, J. W.;\u00a0 DiRusso, CC; and Black, PN, 2016 , J. of Biological Chemistry, Published November 30, 2016, doi: 10.1074\/jbc.M116.760843<\/p>\n

Cattle Code: Coproduct Optimizer Decision Evaluator<\/a>
\nBuckner, C.D., Mark,\u00a0D.R.,\u00a0Bremer,\u00a0 V.R.,\u00a0 & Erickson; G.E., (August 2008).\u00a0Journal of Extension, 46 (4), Tools of the Trade, 4TOT6.<\/p>\n

Characterization of Carboxylic Acid Reductases for Biocatalytic Synthesis of Industrial Chemicals<\/a>
\nKramer,L., Hankore, E.D., Liu, Y., Liu,K., Jimenez, E., Guo, J.,\u00a0 & Niu, W. (2018).\u00a0 ChemBioChem, 19, 1452-1460.<\/p>\n

Characterization of Three Chlorella sorokiniana Strains in Anaerobic Digested Effluent from Cattle Manure<\/a>
\nKobayashi, N.,\u00a0 Noel, E.A., Barnes,\u00a0\u00a0A.,\u00a0\u00a0Watson, A., Rosenberg,\u00a0\u00a0J.N., Erickson, G., &\u00a0Oyler, G.A., (2013). \u00a0Bioresource Technology, 377-386.<\/p>\n

Chemical Activation of Carbon Nano-onions for High-Rate Supercapacitor Electrodes<\/a>
\n<\/strong>Gao,\u00a0Y. , Zhou, Y.S., Qian, M., He,\u00a0X. N., Redepenning,\u00a0J., Goodman,\u00a0P., \u00a0Li,\u00a0H.M., Jiang L., & Lu,\u00a0Y. F., (2013). \u00a0Carbon, 51, 52-58.<\/p>\n

Chemical and Sensory Properties of Beef of Known Source and Finished on Wet Distillers Grains Diets Containing Varying Types and Levels of Roughage<\/a>
\nJenschke, B.E., Benton,\u00a0J.R., Calkins,\u00a0C.R., \u00a0Carr,\u00a0T.P. , Eskridge,\u00a0K.M., \u00a0Klopfenstein,\u00a0T.J., & Erickson\u00a0G.E., (2008). \u00a0Journal of Animal Science, 86, 949-959.<\/p>\n

Comparing Different Drying Methods for Distillers Grains and its Effects on Feedlot Cattle Performance<\/a>
\nB.L. Nuttelman, W.A. Griffin, G. Erickson, T. Klopfenstein; Nebraska Beef Cattle Reports, Paper 621<\/p>\n

Comparing Dry, Wet, or Modified Distillers Grains Plus Solubles on Feedlot Cattle Performance<\/a>
\nNuttleman,B.L., Griffin, W.A., Benton,\u00a0J.R., \u00a0Erickson,\u00a0G.E. & Klopfenstein,T.J., (2011) \u00a0Nebraska Beef Cattle Report, Paper 621.<\/p>\n

Contemporary Issues in Thermal gasification of Biomass and its Application to Electricity and Fuel Production<\/a>
\nWang, L., Weller, C.L., Jones, D.D., & Hanna,\u00a0M.A., (2008). \u00a0Biomass and Bioenergy, 32, 573-581.<\/p>\n

Defect Engineering in Cubic Cerium Oxide Nanostructures for Catalytic Oxidation<\/a>
\nLawrence, N.J., Brewer, J.R., Wang, L. , Wu,\u00a0T-S., Wells-Kingsbury J., Ihrig,\u00a0M.M., Wang,\u00a0G., Soo,Y-L., \u00a0W-Mei,\u00a0N., & Cheung; C.L, (2011). \u00a0 Nano Letters, 11, 2666-2671.<\/p>\n

Dilute-acid Pretreatment of Distillers’ Grains and Corn Fiber<\/a>
\n<\/strong>Noureddini, H. & \u00a0Byun,\u00a0J., (2010). \u00a0Bioresource Technology, 101, 1060-1067.<\/p>\n

Distiller’s Grains and Livestock are Important to Ethanol Energy and Greenhouse Gas Balance<\/a>
\nBremer,\u00a0V.R., Liska,\u00a0A.J , Yang,\u00a0H.S., Walters,\u00a0D.T., Erickson,\u00a0G.E., Klopfenstein,\u00a0T.J., Koelsch, R.K., & K.G. Cassman, Nebraska Beef Cattle Reports, Paper 551<\/p>\n

Economics for Feeding Distillers Grains to Finishing Cattle<\/a>
\nBuckner,\u00a0C. D., Klopfenstein,T., Erickson,\u00a0G., Bremer,\u00a0V. R., \u00a0& \u00a0Mark;\u00a0D., \u00a0Nebraska Beef Cattle Reports, Paper 604<\/p>\n

Effect of Corn Processing in Finishing Diets Containing Wet Distillers Grains on Feedlot Performance and Carcass Characteristics of Finishing Steers<\/a>
\nVander PolK, J., \u00a0Greenquist,\u00a0M. A., Erickson,\u00a0G. E., Klopfenstein,\u00a0T. J., \u00a0& \u00a0Robb,\u00a0T., (2008). The Professional Animal Scientist, 24, 439-444<\/p>\n

Effect of Distillers\u2019 Grains Moisture and Inclusion Level in Livestock Diets on Greenhouse Gas Emissions in the Corn-Ethanol-Livestock Life Cycle<\/a>
\nBremer,V R. \u00a0Watson,\u00a0A. K., \u00a0Liska,\u00a0A. J., Erickson,\u00a0G. E., . Cassman,\u00a0K.G, \u00a0Hanford,\u00a0K. J. \u00a0& Klopfenstein,\u00a0T.J., (2011). \u00a0The Professional Animal Scientist, 27, 449-455.<\/p>\n

The Effect of Drying Distillers Grains on Nutrient Metabolism<\/a>
\nNuttleman,\u00a0B. L., Rolfe,\u00a0K. M., \u00a0Erickson,\u00a0G.,& \u00a0Klopfenstein,\u00a0T. (2011). Nebraska Beef Cattle Reports, \u00a0Paper 620.<\/p>\n

Effect of Prebreeding Body Weight or Progestin Exposure before Breeding on Beef Heifer Performance through the Second Breeding Season<\/a>
\nMartin,\u00a0J. L., Creighton,\u00a0K. W., \u00a0Musgrave,\u00a0J. A., \u00a0Klopfenstein,\u00a0T.J., Clark,\u00a0R. T., Adams,\u00a0D. C., \u00a0& Funston;\u00a0R.N., (2008). \u00a0Journal of Animal Science, 86, 451-459.<\/p>\n

Emissions Savings in the Corn-Ethanol Life Cycle from Feeding Coproducts to Livestock<\/a>
\nBremer,\u00a0V. R., \u00a0Liska,\u00a0A.J., \u00a0Klopfenstein,\u00a0T. J., \u00a0Erickson,\u00a0G. E., Yang, H. S., \u00a0Walters,\u00a0D. T , & Cassman,\u00a0K. G. \u00a0(2010). Journal of Environmental Quality,39, 472-482.<\/p>\n

Enantioselective, Ketoreductase-Based Entry into Pharmaceutical Building Blocks: Ethanol as Tunable Nicotinamide Reductant\u00a0<\/a>
\nBroussy, S., \u00a0Cheloha ,R. W., \u00a0&\u00a0Berkowitz,\u00a0D. B., (2009). \u00a0Organic Letters,11(2), 305-308.<\/p>\n

Evaluation of Dry Distillers Grains Plus Solubles Inclusion on Performance and Economics of Finishing Beef Steers<\/a>
\nBuckner,\u00a0C. D., Mader,\u00a0T. L., Erickson,\u00a0G. E., Colgan,\u00a0S. L., Mark,\u00a0D. R., \u00a0Bremer,\u00a0V. R., \u00a0Karges,\u00a0K. K., & Gibson,\u00a0M.L, (2008). \u00a0The Professional Animal Scientist, 24, 404-410.<\/p>\n

Feeding Corn Milling Byproducts to Feedlot Cattle<\/a>
\nKlopfenstein,\u00a0T. J., \u00a0Erickson,\u00a0G. E., \u00a0& Bremer; V. R.m (2007). \u00a0Veterinary Clinics Food Animal Practice, \u00a023, \u00a0223-245.<\/p>\n

Feedlot Manure Management Considerations Including Anaerobic Digestion Potential and Mineral Retention<\/a>
\n<\/a>Dissertation by Watson, Andrea K. (2014). \u00a0University of Nebraska, 157 pgs.<\/p>\n

Formation of Multiscale Surface Structures of Nickel via Above Surface Growth and Below Surface Growth Mechanisms Using Femtosecond Laser Pulses<\/a>
\nZuhlkw, X.A., Anderson, T.P., & Alexander, D.R. (2013).\u00a0 Optics Express Vol. 21 No. 7, 8460.<\/p>\n

Fundamentals of Layered Nanoparticle Covered Pyramidal Structures Formed on Nickel Diring Femtosecond Laser Surface Interactions<\/a>
\nZuhlke, C.A., Anderson, T.P. & Alexander, D.R., (2013).\u00a0 Applied Surface Science, 283, 648-653.<\/p>\n

Hollow Polyhedral Structures in Small Gold-Sulfide Clusters
\n<\/a>Pei,\u00a0Y., \u00a0Shao,\u00a0N., \u00a0Li,\u00a0H., \u00a0Jiang,\u00a0D., & \u00a0Zeng,\u00a0X. C., (2011). \u00a0ACS Nano, 5(2), 1441-1449.<\/span><\/p>\n

Identification and Metabolite Profiling of Chemical Activators of Lipid Accumulation in Green Algae\u00a0<\/a>\u00a0 Wase, N., Tu, B., Allen, J.W., Black, P.N., & DiRusso, C.C. (2017). \u00a0Plant Physiology, August 2017, Vol. 174, 2146-2165.<\/p>\n

Identification of the Biosynthetic Gene Cluster for the anti-MRSA<\/a>
\nYu, L., Du, F., Chen, X., Zheng, Y., Morton, M., Liu, F., & Du, L. (2020).\u00a0 ACS Synth Biol. 9, 1989-1997.<\/p>\n

Impact of Distillers Grains Moisture and Inclusion Level on Greenhouse Gas Emissions in the Corn-Ethanol-Livestock Life Cycle Report<\/a>
\nBremer,\u00a0V. R., Liska,\u00a0A. J., Erickson,\u00a0G. E., Cassman,\u00a0K .G., Hanford,\u00a0K. J., \u00a0& Klopfenstein;T. J., (2011). \u00a0Nebraska Beef Cattle Report, MP94, \u00a042-43.<\/p>\n

Innovations in Improving Lipid Production: Algal Chemical Genetics<\/a>
\nWase, N., Black, P, & DiRusso, C., (2018) Progress in Lipid Research, doi: 10.1016\/j.pliprs.2018.07.001<\/p>\n

Interlocked Catenane-Like Structure Predicted in Au24(SR)20<\/a>
\nPei,\u00a0Y., \u00a0Pal,\u00a0R., \u00a0Liu,\u00a0C., Gao,\u00a0Y., \u00a0Zhang,\u00a0Z., & Zeng,\u00a0X. C., (2012). Journal of the American Chemical Society, 134, \u00a03015-3024.<\/p>\n

In vivo Extraction of Arabidopsis Cell Turgor Pressure Using Nanoindentation in Conjunction with Finite Element Modeling<\/a>
\nForouzesh,\u00a0E., \u00a0Goel,\u00a0A., \u00a0Mackenzie,\u00a0S. A., & Turner,\u00a0J. A., (2013). The Plant Journal, 73, 509-520.<\/p>\n

LeTetR Positively Regulates 3-Hydroxylation of the Antifungal HSAF and Its Analogs in Lysobacter enzymogenes OH11\u00a0<\/a>
\nYu, L., Khetrapal, V., Liu, F., & Du, L. (2020), 25, 2286.<\/p>\n

Methanogens – Pushing the Boundaries of Biology<\/a>
\nBuan, N.R. (2018).\u00a0 Emerging Topics in Life Sciences, 2, 629-646,\u00a0 https:\/\/doi.org\/10.1042\/ETLS20180031<\/p>\n

Microalgal Biomass Production and Carbon Dioxide Sequestration from an Integrated Ethanol Biorefinery in Iowa: A Technical Appraisal and Economic Feasibility Evaluation<\/a>
\nRosenberg, J.N., Mathias, A., Korth, K., Betenbaugh, M.J. & Oyler, G.A. (2011), Biomass and Bioenergy 36, 3865-3876.<\/p>\n

Microbial Community Shifts During Anaerobic Digestion of Finishing Cattle Manure with and without Distillers Grains in the Diet (abstract)<\/a>
\nFiore, N.D., Dunigan, D.D., Shaffer, J.J., Roberts, R., Antony-Babu, S., Plantz, B.A., Nickerson, K. W., Benson, A.K. Weber, K. A., (2019).\u00a0 Microbiology Resource Announcements 8:300063-19.\u00a0 https:\/\/doi.org\/10-1128\/MRA.00063-19.<\/p>\n

Optimization and Economic Evaluation of Industrial Gas Production and Combined Heat and Power Generation from Gasification of Corn Stover and Distillers Grains<\/a>
\nKumar,\u00a0A., Demirel,\u00a0Y., Jones, D. D., & Hanna,\u00a0M. A., (2010). \u00a0Bioresources Technology, 10(10), 3696-3701.<\/p>\n

Performance and Digestibility Characteristics of Finishing Diets Containing Distillers Grains, Composites of Corn Processing Coproducts, or Supplemental Corn Oil<\/a>
\nVander PolK, J., Luebbe,\u00a0M. K. , \u00a0Crawford,\u00a0G. I., Erickson, G. E, & Klopfenstein,\u00a0T. J., (2009). Journal of Animal Science, 87, 639-652.<\/p>\n

Simulation of Corn Stover and Distillers Grains Gasification with Aspen Plus<\/a>
\nKumar,\u00a0A., \u00a0Noureddini,\u00a0H., \u00a0Demirel,\u00a0Y., Jones,\u00a0D. D., & Hanna,\u00a0M. A., \u00a0(2009). \u00a0Transactions of the ASABE, 52(6), 1989-1991.<\/p>\n

Spermidine-Regulated Biosynthesis of Heat-Stable Antifungal Factor (HSAF) in Lysobacter enzymogenes OH11<\/a>
\nChen, Y., Yu, L. Liu, F., Du, L.\u00a0 (2018).\u00a0 Frontiers in Microbiology 9: 2894.<\/p>\n

Stagewise Dilute Acid Pretreatment and Enzyme Hydrolysis of Distillers’ Grains and Corn Fiber<\/a>
\nNoureddini, H., Byun,\u00a0J., & Yu,\u00a0T-J., (2009). \u00a0 Applied Biochemistry Biotechnology, 159, 553-567.<\/p>\n

Steam\u2013Air Fluidized Bed Gasification of Distillers Grains: Effects of Steam to Biomass Ratio, Equivalence Ratio and Gasification Temperature<\/a>
\nKumar,\u00a0A., Eskridge,\u00a0 K., Jones,\u00a0D. D., & \u00a0Hanna, M. A., (2009). \u00a0Bioresource Technology, 100, \u00a02062-2068.<\/p>\n

Structure Evolution of Gold Cluster Anions Between the Planar and Cage Structures by Isoelectronic Substitution: Aun<\/sub>–<\/sup>(n=13-15) and MAun<\/sub>–<\/sup> (n=12-14; M=Ag, cu)<\/a>
\nPal,\u00a0R., Wang,\u00a0L-M., Huang,\u00a0W., Wang,\u00a0L-S., & Zeng;\u00a0X. C., (2011). \u00a0The Journal of Chemical Physics, 134, 054306-1-054306-7<\/p>\n

Synthesis and Characterization of Highly Flexible Thermoplastic Films from Cyanoethylated Corn Distillers Dried Grains with Solubles<\/a>
\nHu,\u00a0C., Reddy,\u00a0N., Yan,\u00a0K., & Yang,\u00a0Y., \u00a0(2011). Journal of Agricultural and Food Chemistry, 59,1723-1728.<\/p>\n

Synthesis of (S)-Profens<\/a>
\nFriest,J.A., Maezato,\u00a0Y., \u00a0Broussy,\u00a0S., \u00a0 & Berkowitz,\u00a0D. B., \u00a0(2010). \u00a0Journal of the American Chemical Society, 132,5930-5931.<\/p>\n

Synthetic Redesign of Plant Lipid Metabolism
\n<\/a>Haslam, R. P. , Sayanova, O., Kim, H.J., Cahoon, E.B., Napier, J.A. (2016). The Plant Journal, doi: 10.1111\/tpj. 13172<\/p>\n

Technical and Economical Analyses of Combined Heat and Power Generation from Distillers Grains and Corn Stover in Ethanol Plants<\/a>
\nWang,\u00a0L., \u00a0Hanna,\u00a0M. A., Weller,\u00a0C. L., & Jones,\u00a0D. D., (2009). Energy Conversion and Management, \u00a050, 1704-1713.<\/p>\n

Thermal Degradation Kinetics of Distillers Grains and Solubles in Nitroben and Air – Energy Sources, Part A<\/a>
\nWang,\u00a0L., \u00a0Kumar,\u00a0A., Hanna,\u00a0M. A., Weller,\u00a0C. L., & \u00a0Jones,\u00a0D. D., (2009). Energy Sources, Part A, \u00a031, \u00a0797-806.<\/p>\n

Thermochemical Biomass Gasification: A Review of the Current Status of the Technology<\/a>
\nKumar,\u00a0A., Jones, D. D., & Hanna,\u00a0M. A., (2009).\u00a0 Energies, 2, \u00a0556-581.<\/p>\n

Thermogravimetric Characterization of Corn Stover as Gasification and Pyrolysis Feedstock<\/a>
\nKumar,\u00a0A., Wang,\u00a0L., \u00a0Dzenis,\u00a0Y. A., \u00a0Jones,\u00a0D. D., & Hanna, M. A., (2008). \u00a0Biomass and Bioenergy, 32, 460-467.<\/p>\n

Use of Distillers By-Products in the Beef Cattle Feeding Industry<\/a>
\nKlopfenstein,\u00a0T. J, Erickson,\u00a0G. E., \u00a0& Bremer,\u00a0V. R.; (2008). \u00a0Journal of Animal Science, 86, 1223-1231<\/p>\n

Use of a Robust Dehydrogenase from an Archael Hyperthermophile in Asymmetric Catalysis – Dynamic Reductive Kinetic Resolution Entry into (S)-Profens – Invited<\/a>
\nFriest,\u00a0J. A., \u00a0Maezato,\u00a0Y., Broussy, S., Blum,\u00a0P., & Berkowitz,\u00a0D. B., (2010). \u00a0JACS Communications, Journal of the American Chemical Society, 132, 5930-5931.<\/p>\n

Utilization of Dried Distillers Grains for Developing Beef Heifers<\/a>
\nMartin,\u00a0J. L., \u00a0Cupp,\u00a0A. S., Rasby,\u00a0R. J., Hall, Z. C. & Funston;\u00a0R. N. (2007). \u00a0Journal of Animal Science, \u00a085, 2298-2303.<\/p>\n

Viscoelastic Properties of Cell Walls of Single Living Plant Cells Determined by Dynamic Nanoindentation<\/a>
\nHayot,\u00a0C. M., \u00a0Forouzesh,\u00a0E., Goel,\u00a0A., \u00a0Avramova\u00a0Z., & TurnerJ.A., (2012). \u00a0Journal of Experimental Botany, 16, \u00a02525-2540.<\/p>\n

 <\/p>\n

 <\/p>\n","protected":false},"excerpt":{"rendered":"

Acetylation of Corn Distillers Dried Grains Reddy, N.,\u00a0 Hu, C., Yan, K., &\u00a0Yang, Y., (2011). \u00a0Applied Energy, 88, 1664-1670. A New Dehydrogenase from Clostridium acetobutylicum for Asymmetric Synthesis: Dynamic Reductive Kinetic Resolution Entry into the Taxotere Side Chain Applegate, G.A.,\u00a0Cheloha, R.W.,\u00a0\u00a0Nelson, D.L., &\u00a0\u00a0Berkowitz; D.B., (2011). \u00a0Chemical Communications,\u00a047, 2420-2422. A Novel Method for the Production of […]<\/p>\n","protected":false},"author":189,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-4786","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/pages\/4786","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/users\/189"}],"replies":[{"embeddable":true,"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=4786"}],"version-history":[{"count":121,"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/pages\/4786\/revisions"}],"predecessor-version":[{"id":4887,"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=\/wp\/v2\/pages\/4786\/revisions\/4887"}],"wp:attachment":[{"href":"https:\/\/ncesr.unl.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=4786"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}