References
- Kohlpaintner C, Schulte M, Falbe J, Lappe P, Waber J. In: Ullmann’s Encyclopedia of Industrial Chemistry (6th Edition). Wiley-VCH, Hoboken, NJ, USA (1999).
- Meskens FAJ. Methods for the preparation of acetals from alcohols or oxiranes and carbonyl compounds. Synthesis7,501–522 (1981).
- Silva VMTM, Rodrigues AE. Novel process of diethylacetal synthesis. AIChE J.51,2752–2768 (2005).
- Santacesaria E, Sorrentino A, Tesser R, Di Serio M, Ruggiero A. Oxidative dehydrogenation of ethanol to acetaldehyde on V2O5/TiO2-SiO2 catalysts obtained by grafting vanadium and titanium alkoxides on silica. J. Mol. Catal. A: Chemical204–205,617–627 (2003).
- Zhang Z, Ma X, Zhang J, He F, Wang S. Effect of crystal structure of copper species on the rate and selectivity in oxidative carbonylation of ethanol for diethyl carbonate synthesis. J. Mol. Catal. A: Chemical227,141–146 (2005).
- Gucbilmez Y, Dogu T, Balci S. Ethylene and acetaldehyde production by selective oxidation of ethanol using mesoporous V-MCM-41 catalysts. Ind. Eng. Chem. Res.45,3496–3502 (2006).
- Bae JW, Jang EJ, Jo DH, Lee JS, Lee KH. Liquid-phase hydrodechlorination of CCl4 in a medium of ethanol with co-production of acetal and diethyl carbonate. J. Mol. Catal. A Chem.206,225–238 (2003).
- Liu H, Iglesia E. Selective oxidation of methanol and ethanol on supported ruthenium oxide clusters at low temperatures. J. Phys. Chem. B109(6),2155–2163 (2005).
- Bueno AC, Gonçalves JA, Gusevskaya EV. Palladium-catalyzed oxidation of primary alcohols: highly selective direct synthesis of acetals. Appl. Catal. A General329,1–6 (2007).
- Tatibouët JM, Germain JE. Structure sensitivity of ethanol oxidation on crystalline molybdenum trioxide catalysts. J. Chem. Res.268,3070 (1981).
- Tatibouët JM, Germain JE, Volta JC. Structure-sensitive catalytic oxidation: Alcohols on graphite-supported molybdenum trioxide. J. Catal.82,240–244 (1983).
- Brandhorst M, Cristol S, Capron M et al. Catalytic oxidation of methanol on Mo/Al2O3 catalyst: An EPR and Raman/infrared operando spectroscopies study. Catal. Today113(1–2),34–39 (2006).
- Gornay J, Sécordel X, Tesquet G et al. Direct conversion of methanol into 1,1-dimethoxymethane: remarkably high productivity over an FeMo catalyst placed under unusual conditions. Green Chem.12,1722–1725 (2010).
- Gornay J, Sécordel X, Capron M et al. Direct synthesis of 1,1-dimethoxymethane from methanol by minor modification of the formaldehyde production process over FeMo catalysts. Oil & Gas Science and Technology65(5),751–762 (2010).
- Nikonova OA, Capron M, Fang G et al. Novel approach to rhenium oxide catalysts for selective oxidation of methanol to DMM. J. Catal.279(2),310–318 (2011).
- Hardcastle FD, Wachs IE, Horsley JA, Via GH. The structure of surface rhenium oxide on alumina from lasser raman spectroscopy and x-ray absorption near-edge spectroscopy. J. Mol. Catal.46,15–36 (1988).
- Zhao H, Bennici S, Shen J, Auroux A. Nature of surface sites of V2O5-TiO2/SO42- catalysts and reactivity in selective oxidation of methanol to dimethoxymethane. J. Catal.272(1),176–189 (2010).
- Pernicone N. MoO3-Fe2(MoO4)3 catalysts for methanol oxidation. J. Less-Common Metals36(1–2),289–297 (1974).
- Pernicone N, Lazzerin F, Liberti G, Lanzavecchia G. On the mechanism of CH3OH oxidation to CH2O over MoO3-Fe2(MoO4)3 catalyst. J. Catal.14(4),293–302 (1969).
- Deshmukh SARK, Van Sint Annaland M, Kuipers JAM. Kinetics of the partial oxidation of methanol over a Fe-Mo catalyst. Appl. Catal. A General289(2),240–255 (2005).
- Yuan Y, Liu H, Imoto H, Shido T, Iwasawa Y. Selective synthesis of methylal from methanol on a new crystalline SbRe2O6 catalyst. Chem. Lett.674–675 (2000).
- Yuan Y, Liu H, Imoto H, Shido T, Iwasawa Y. Performance and characterization of a new crystalline SbRe2O6 catalyst for selective oxidation of methanol to methylal. J. Catal.195,51–61 (2000).
- Yuan Y, Shido T, Iwasawa Y. The new catalytic property of supported rhenium oxides for selective oxidation of methanol to methylal. Chem. Comm.1421–1422 (2000).
- Royer S, Sécordel X, Brandhorst M et al. Amorphous oxide as a novel efficient catalyst for direct selective oxidation of methanol to dimethoxymethane. Chem. Commun.7,865–867 (2008).
- Sécordel X, Yoboué A, Berrier E et al. Supported oxorhenate catalysts prepared by thermal spreading of metal Re0 for methanol conversion to methylal. J. Solid State Chem.184,2806–2811 (2011).
▪ Patents
- Boennhoff K. DE2911411 (1980).
- Boennhoff K. DE313030 (1983).
- Golubkov A, Golubkov I. US020026744A1 (2002).
- Golubkov A, Golubkov I. US7014668 (2006).
- Forschirm A. US4732575 (1988).
- Waller FJ, Weist EL, Brown DM, Tijm PJA. US5858030 (1999).
- Smith LA, Arganbright RP. US6015875 (2000).
- Bean JD, McAndrew WG III. US6514299 (2003).
- Mookherjee BD, Trenkle RW, Patel SM, Brown SM, US5321006 (1994).
- Kaufhold M, Del-Chabawi M. US5527969 (1996).
- Liu H, Iglesia E. US0059839A1 (2005).
- Dubois JL. WO090294 (2008).