Environmental Engineering Reference
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167. Hamada, K., Suzukamo, G. and Nagase, T. (1978) Furaldehydes, Sumitomo Chemical Co.
Ltd., DE 2745743.
168. Szmant, H.H. and Chundury, D.D. (1981) The preparation of 5-chloromethylfurfuralde-
hyde from high fructose corn syrup and other carbohydrates. Journal of Chemical
Technology and Biotechnology , 31 (4), 205-212.
169. Fischer, E. and von Neyman, H. (1914) Notiz Über Ω-Chlormethyl- Und Äthoxymethyl-
Furfurol. Berichte Der Deutschen Chemischen Gesellschaft , 47 , 973-977.
170. Haworth, W.N. and Jones, W.G.M. (1944) The conversion of sucrose into furan compounds.
part I. 5-hydroxymethylfurfuraldehyde and some derivatives. Journal of the Chemical
Society , 667-670.
171. Timko, J.M. and Cram, D.J. (1974) Furanyl unit in host compounds. Journal of the
American Chemical Society , 96 (22), 7159-7160.
172. Mascal, M. and Nikitin, E.B. (2008) Direct, High-yield conversion of cellulose into bio-
fuel, Angewandte Chemie-International Edition , 47 (41), 7924-7926.
173. Mascal, M. and Nikitin, E.B. (2009) Towards the efficient, total glycan utilization of
biomass. Chemsuschem , 2 (5), 423-426.
174. Mascal, M. and Nikitin, E.B. (2009) Dramatic advancements in the saccharide to
5-(chloromethyl)furfural conversion reaction. Chemsuschem , 2 (9), 859-861.
175. Brasholz, M., von Kanel, K., Hornung, C.H. et al. (2011) Highly efficient dehydration of
carbohydrates to 5-(chloromethyl)furfural (CMF), 5-(hydroxymethyl)furfural (HMF) and
levulinic acid by biphasic continuous flow processing. Green Chemistry , 13 (5), 1114-1117.
176. van Putten, R.J., van der Waal, J.C., de Jong, E. et al. (2013) Hydroxymethylfurfural, a
versatile platform chemical made from renewable resources. Chemical Reviews , 113 (3),
1499-1597.
177. Yang, W.R. and Sen, A. (2010) One-step catalytic transformation of carbohydrates and
cellulosic biomass to 2,5-dimethyltetrahydrofuran for liquid fuels. Chemsuschem , 3 (5),
597-603.
178. Thananatthanachon, T. and Rauchfuss, T.B. (2010) Efficient production of the liquid fuel
2,5-dimethylfuran from fructose using formic acid as a reagent. Angewandte Chemie-
International Edition , 49 (37), 6616-6618.
179. Simmie, J.M. (2012) Kinetics and thermochemistry of 2,5-dimethyltetrahydrofuran and
related oxolanes: next next-generation biofuels. Journal of Physical Chemistry A , 116
(18), 4528-4538.
180. Gruter, G.J.M. and Dautzenberg, F. (2007) Preparation of 5-?alkoxymethylfurfural ethers
for use as fuel or monomer in polymerization. EU Patent 1834950.
181. Gruter, G.J.M. and Manzer, L.E. (2009) Hydroxymethylfurfural ethers with mixed alcohols
as gasoline and diesel fuel additives, World Patent WO 2009030508.
182. Gruter, G.J.M. (2009) (Alkoxymethyl)furfural ethers with branched alcohols as gasoline
and diesel fuel additives. World Patent WO 2009030511.
183. Windom, B.C., Lovestead, T.M., Mascal, M. et al. (2011) Advanced distillation curve
analysis on ethyl levulinate as a diesel fuel oxygenate and a hybrid biodiesel fuel. Energy
and Fuels , 25 (4), 1878-1890.
184. Leibig, C.M., Mullen, B. and Rieth, L., et al . (2010) Cellulosic-derived levulinic ketal
esters: a new building block, Abstracts of Papers of the American Chemical Society, 239 ,
111-116.
185. Lange, J.P., Price, R., Ayoub, P.M. et al. (2010) Valeric biofuels: a platform of cellulosic
transportation fuels. Angewandte Chemie-International Edition , 49 (26), 4479-4483.
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