10.1002/cctc.201700089
ChemCatChem
FULL PAPER
Shoemaker, G. Zhu, R. Archer, G. F. Salem, E. L. Dias, US
2011/0306790, 2011; c) T. R. Boussie, G. M. Diamond, E. Dias, V. J.
Murphy, in Chemicals and Fuels from Bio-Based Building Blocks, Vol. 1
(Eds. F. Cavani, S. Albonetti, F. Basile, A. Gandini), Wiley-VCH,
Weinheim, 2016, pp. 153-172; d) F. Cavani, S. Alini, in Sustainable
Industrial Chemistry (Eds. F. Cavani, G. Centi, S. Perathoner, F. Trifirò),
Wiley-VCH, Weinheim, 2009, pp. 367-426; e) G. Ondrey, Chem. Eng.
2015, 122(9), 11; f) R. Archer, G.M. Diamond, E.L. Dias, V.J. Murphy,
M. Petro, J.D. Super, US 2013/0345473, 2013.
Acknowledgements
Prof. Laura Prati and Prof. Alberto Villa, Univ. of Milan, are
gratefully acknowledged for their fruitful discussion. Prof. Elena
Groppo, Univ. of Turin, and Dr. Patrica Benito, Univ. of Bologna,
are acknowledged for preliminary CO adsorption experiments.
Keywords: Glucose • Glucaric acid • Gluconic acid • Au
[7]
a) Y. Wang, S. V. d. Vyver, K. K. Sharma, Y. Román-Leshkov, Green
Chem. 2014, 16, 719–726; b) P. J. Miedziak, H. Alshammari, S. A.
Kondrat, T. J. Clarke, T. E. Davies, M. Morad, D. J. Morgan, D. J.
Willock, D. W. Knight, S. H. Taylor and G. J. Hutchings, Green Chem.
2014, 16, 3132–3141; c) Y. Cao, X. Liu, S. Iqbal, P. J. Miedziak, J. K.
Edwards, R. D. Armstrong, D. J. Morgan, J. Wang, G. J. Hutchings,
Catal. Sci. Technol.2016, 6, 107–117; d) S. Rautiainen, P. Lehtinen, M.
Vehkamäki, K. Niemelä,M. Kemell, M. Heikkilä, T. Repo, Catal.
Commun. 2016, 74, 115-118; e) M. Comotti, C. Della Pina, R.
Matarrese, M. Rossi, Angew. Chem., Int. Ed. 2004, 43, 5812-5815; f) C.
Baatz, U.Prüße, J. Catal. 2007, 249, 34-40; g) H. Zhang, N. Toshima,
Catal. Sci. Technol. 2013, 3, 268-278.
nanoparticles • Selective oxidation
[1]
a) A. Corma, S. Iborra, A. Velty, Chem. Rev. 2007, 107, 2411-2502; b) I.
Delidovich, P.J.C. Hausoul, L. Deng, R. Pfützenreuter, M. Rose, R.
Palkovits, Chem. Rev. 2016, 116, 1540−1599; c) M. Besson, P.
Gallezot, C. Pinel, Chem. Rev. 2014, 114, 1827−1870; d) T. Ennaert, J.
Van Aelst, J. Dijkmans, R. De Clercq, W. Schutyser, M. Dusselier, D.
Verboekend, B.F. Sels, Chem. Soc. Rev., 2016, 45, 584-611; e)
“Chemicals and Fuels from Bio-based Building Blocks”, F. Cavani, A.
Albonetti, F. Basile, A. Gandini (Eds.), Wiley-VCH, Weinheim, 2016.
a) W. Deng, Q. Zhang, Y. Wang, Catal Today 2014, 234, 31-41; b) F.
W. Lichtenthaler, S. Peters, ComptesRendusChimie 2004, 7, 65-90; c)
J. N. Chheda, G. W. Huber, J. A. Dumesic, Angew. Chem., Int. Ed.,
2007, 46, 7164–7183; d) P. Gallezot, Catal. Today 2007, 121, 76–91;
e) F. Cavani, Catal. Today 2010, 157, 8-15; f) F. Cavani, J.H. Teles,
ChemSusChem 2009, 2, 508 – 534; g) A. Chieregato, J.M. López Nieto,
F. Cavani, Coord. Chem. Rev. 2015, 301–302, 3–23.
[2]
[3]
[8]
a) A. Mirescu, U. Prüße, Appl. Catal. B 2007, 70, 644–652; b) S. Biella,
L. Prati, M. Rossi, J. Catal. 2002, 206, 242–247; c) R. Saliger, N.
Decker, U. Prüße, Appl. Catal. B 2011, 102, 584–589; d) S. Rautiainen,
P. Lehtinen, J. Chen, M. Vehkamäki, K. Niemelä, M Leskelä, T. Repo,
RSC Adv. 2015, 5, 19502-19507; e) B. T. Kusema, B. C. Campo, P.
Mäki-Arvela, T. Salmi, D. Yu. Murzin, Appl. Catal. A 2010, 386, 101–
108; f) E. Smolentseva, Br. T. Kusema, S. Beloshapkin, M. Estrada, E.
Vargas, D. Yu. Murzin, F. Castillon, S. Fuentes, A. Simakov, Appl.
Catal. A 2011, 392, 69–79; g) B. T. Kusema, J.-P. Mikkola, D. Yu.
Murzin, Catal. Sci. Technol. 2012, 2, 423–431; h) B. T. Kusema, D. Yu.
Murzin, Catal. Sci. Technol. 2013, 3, 297-307; i) B. T. Kusema, B. C.
Campo, O. A. Simakova, A.-R. Leino, K. Kordás, P. Mäki-Arvela, T.
Salmi, D. Yu Murzin, ChemCatChem 2011, 3, 1789-1798 ; j) S.
Hermans, A. Deffernez, M. Devillers, Appl. Catal. A 2011, 395, 19–27;
k) A. Villa, S. Campisi, C.E. Chan-Thaw, D. Motta, D. Wang, L. Prati,
Catal. Today 2015, 249, 103–108; l) Y. Zhou, S. Wang, B. Ding, Z.
Yang, J. Sol-Gel Sci. Technol. 2008, 47, 182-186.
a) S. Styron, D. Kiely, G. Ponder, J. Carbohydr. Chem. 2003, 22, 123–
142; b) H. Pohjanlehto, H. Setälä, K. Kammiovirta, A. Harlin, Carbohydr.
Res. 2011, 346, 2736–2745; c) P. M. J. Dijkgraaf, M. Verkuylen, K.
Vanderwiele, Carbohydr. Res. 1987, 163, 127−131; d) D. E. Kiely, L.
Chen, T. H. Lin, J. Am. Chem. Soc. 1994, 116, 571-578; e) T. N. Smith,
INFORM - International News on Fats, Oils and Related Materials 2011,
22, 550-552; f) D.E. Kiely, S.K.R. Hash, US 2014/256983, 2014; g) T. N.
Smith, K. Hash, C.-L. Davey, H. Mills, H. Williams, D. E. Kiely,
Carbohydr. Res.2012, 350, 6-13.
[4]
a) J.-F. Thaburet, N. Merbouh, M. Ibert, F. Marsais, G. Queguiner,
Carbohydr. Res.2001, 330, 21–29; b) M. Ibert, F. Marsais, N. Merbouh,
C. Brückner, Carbohydr. Res. 2002, 337, 1059-1063; c) D. Bin, H.
Wang, J. Li, H. Wang, Z. Yin, J. Kang, B. He, Z. Li, Electrochim. Acta
2014, 130, 170–178; d) M. Ibert, P. Fuertès, N. Merbouh, C. Fiol-Petit,
C. Feasson, F. Marsais, Electrochim. Acta 2010, 55, 3589–3594; e) M.
Ibert, P. Fuertès, N. Merbouh, C. Feasson, F. Marsais, Carbohydr. Res.
2011, 346, 512–518.
[9]
a) M. Haruta, Catal. Today 1997, 36, 153–166; b) T. Ishida, N.
Kinoshita, H. Okatsu, T. Akita, T. Takei, M. Haruta, Angew. Chem., Int.
Ed. 2008, 47, 9265–9268.
[10] a) T. Mallat, A. Baiker, Catal. Today 1994, 19, 247–284; b) A. K. Sinha,
S. Seelan, S. Tsubota, M. Haruta, Angew. Chem., Int. Ed. 2004, 43,
1546–1548; c) R.J. Davies, Science 2003, 301, 926–927.
[5]
a) J. M. H. Dirkx, H. S. van der Baan, J. M. A. J. J. van den Broen,
Carbohydr. Res. 1977, 59, 63–72; b) F. R. Venema, J. A. Peters, H.
van Bekkum, J. Mol. Catal. 1992, 77, 75–85; c) J. Lee, B. Saha, D. G.
Vlachos, Green Chem. 2016, 18, 3815-3822; d) X. Jin, M. Zhao, M.
Vora, J. Shen, C. Zeng, W. Yan, P.S. Thapa, B. Subramaniam, R. V.
Chaudhari, Ind. Eng. Chem. Res. 2016, 55, 2932−2945; e) X. Jin, M.
Zhao, J. Shen, W. Yan, L. He, P. S. Thapa, S. Ren, B. Subramaniam, R.
V. Chaudhari, J. Catal. 2015, 330, 323–329; f) E. Derrien, P. Marion, C.
Pinel, M. Besson, Org. Process Res. Dev. 2016, 20, 1265−1275; g) M.
Besson, G. Flèche, P. Fuertes, P. Gallezot, F. Lahmer, Recl. Trav.
Chim. Pays-Bas1 996, 115, 217−221.
[11] a) C. E. Chan-Thaw, L. E. Chinchilla, S. Campisi, G. A. Botton, L. Prati,
N. Dimitratos, A. Villa, ChemSusChem 2015, 8, 4189-4194; b) A. Villa,
C. E. Chan-Thaw, S. Campisi, C. L. Bianchi, D. Wang, P. G. Kotula, C.
Kübelb, L. Prati, Phys. Chem. Chem. Phys., 2015, 17, 28171-28176.
[12] G. Bergeret, P. Gallezot, in Handbook of Heterogeneous Catalysis (Eds.
G. Ertl, H. Knözinger, F. Schüth, J. Weitkamp) Wiley-VCH Verlag
GmbH & Co., 2008, pp 738-765.
[6] a) T.R. Boussie, E.L. Dias, Z. M. Fresco, V.J. Murphy, J. Shoemaker, R.
Archer, H. Jiang, WO 2010/144862, 2010; b) V. J. Murphy, J.
This article is protected by copyright. All rights reserved.