Biofuels technologies: An overview of feedstocks, processes, and technologies  19


              Ziolkowska, J.R., 2018. Introduction to biofuels and potentials of nanotechnology. In: -
                 Srivastava, N., Srivastava, M., Pandey, H., Mishra, P.K., Ramteke, P.W. (Eds.), Green
                 Nanotechnology for Biofuel Production. Biofuel and Biorefinery Technologies.
                 Springer, Basel, pp. 1–15.
              Ziolkowska, J.R., Simon, L., 2014. Recent developments and prospects for algae-based fuels
                 in the US. Renew. Sust. Energ. Rev. 29, 847–853.
              Ziolkowska, J., Meyers, W.H., Meyer, S., Binfield, J., 2010. Targets and mandates: lessons
                 learned from EU and US biofuel policy mechanisms. AgBioForum 13 (4), 398–412.

              Further reading

              Casey, T., 2012. U.S. Department of Energy Announces New Biofuel to Replace Gasoline.
                 Cleantechnica.http://cleantechnica.com/2011/03/08/u-s-departmentof-energy-
                 announces-new-biofuel-to-replace-gasoline/. (Accessed 3 August 2011).
              Dubey, A.K., Gupta, P.K., Garg, N., Naithani, S., 2012. Bioethanol production from waste
                 paper acid pretreated hydrolyzate with xylose fermenting Pichia stipites. Carbohydr.
                 Polym. 88 (3), 825e9.
              Stephanopoulos, G., 2007. Challenges in engineering microbes for biofuels production.
                 Science 315 (5819), 801–804.
              Tye, Y.Y., Lee, K.T., Abdullah, W.N.W., Leh, C.P., 2012. Potential of Ceiba pentandra (L.)
                 Gaertn. (kapok fiber) as a resource for second generation bioethanol: effect of various
                 simple pretreatment methods on sugar production. Bioresour. Technol. 116, 536e9.
              Vinuselvi, P., Park, J.M., Lee, J.M., Oh, K., Ghim, J.M., Lee, S.K., 2011. Engineering
                 microorganisms for biofuel production. Biofuels 2 (2), 153–166.