Abstract
Iridium catalyst was prepared using a novel titanium oxide-CMK-3 support synthesized as a replica of Ti-SBA-15. The catalyst was applied in the hydrodenitrogenation of indole. The activity was compared with an iridium catalyst supported over a grafted titanium-CMK-3. Structural and textural characterization of the catalysts was performed by means of N2 adsorption, XRD, UV–Vis–DRS, Raman spectroscopy, XPS, TEM and H2 Chemisorption. Ir-Ti-CMK-3 was the most active catalyst for the hydrodenitrogenation reaction at mild conditions. Titanium oxide contained in carbon ordered mesoporous CMK-3 promotes a very good anchorage of iridium metallic clusters in the carbon framework reaching high active site distribution and more stable nanoclusters.
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Cinibulk J, Vít Z (1999) Appl Catal A: Gen 180:15
Cinibulk J, Vit Z (2000) Appl Catal A: Gen 204:107
Vit Z, Cinibulk J (2001) React Kinet Catal Lett 72:189
Vit Z, Cinibulk J (2002) React Kinet Catal Lett 77:43
Cinibulk J, Vit Z (2002) Stud Surf Sci Catal 143:443
Cinibulk J, Gulkova D, Yoshimura Y, Vit Z (2003) Appl Catal A 255:321
Dees MJ, den Hartog AJ, Ponec V (1991) Appl Catal 72:343
Ting C, Wu H, Vetrivel S, Saikia D, Pan Y, Fey GTK, Kao HA (2010) Micropor Mesopor Mat 128:1
Yoon S, Lee J, Hyeon T, Oh SM (2000) J Electrochem Soc 147:2507
Lu A, Li W, Schmidt W, Kiefer W, Schüth F (2004) Carbon 42:2939
Vix-Guterl C, Frackowiak E, Jurewicz K, Friebe M, Parmentier J, Béguin F (2005) Carbon 43:1293
Lang J, Yan X, Yuan X, Yang J, Xue Q (2011) J Power Sources 196:10472
Fang Y, Gu D, Zou Y, Wu Z, Li F, Che R, Deng Y, Tu B, Zhao D (2010) Angew Chem Int Ed 43:7987
Juárez JM, Gómez Costa MB, Anunziata OA (2015) Int J Energy Res 39:128
Chang H, Joo SH, Pak C (2007) J Mater Chem 17:3078
Wang C, Waje M, Wang X, Tang JM, Haddon RC, Yan YS (2004) Nano Lett 4:345
Lee J, Kim JM, Hyeon T (2006) Adv Mater 18:2073
Hsu RS, Higgins D, Chen Z (2010) Nanotechnology 21:165705
Higgins DC, Choi JY, Wu J, Lopez A, Chen Z (2012) J Mater Chem 22:3727
Kresge CT, Leonowicz ME, Roth WJ, Vartuli JC, Beck JS (1992) Nature 359:710
Naik B, Nath Ghosh N (2009) Recent Pat Nanotechnol 3:213
Zepeda TA, Pawelec B, Fierro JLG, Halachev T (2007) Appl Catal B 71:223
Ryoo R, Joo SH, Jun S (1999) J Phys Chem B 103:7743
Ledesma BC, Anunziata OA, Beltramone AR (2016) Appl Catal B 192:220
Zhao D, Feng J, Huo Q, Melosh N, Fredrickson GH, Chmelka BF, Stucky GD (1998) Science 279:548
Suryavanshi U, Iijima T, Hayashia A, Hayashi Y, Tanemura M (2012) Chem Eng J 179:388
Gómez Costa MB, Juárez JM, Martínez ML, Beltramone AR, Cussa J, Anunziata OA (2013) Mater Res Bull 48:661
Langford JI, Wilson AJC (1978) J Appl Crystallogr 11:102
Balaji S, Djaoued Y, Robichaud J (2006) J Raman Spectrosc 37:1416
Dresselhaus MS, Jorio A, Hofmann M, Dresselhaus G, Saito R (2010) Nano Lett 10:751
Zhang W, Cui J, Tao C, Wu Y, Li Z, Ma L, Wen Y, Li G (2009) Angew Chem 121:5978
Tuinstra F, Koenig JL (1970) J Chem Phys 53:1126
Darmstadt H, Roy C, Kaliaguine S, Choi SJ, Ryoo R (2002) Carbon 40:2673
Blasco T, Corma A, Navarro MT, Perez Pariente J (1995) J Catal 156:65
HsuanHung W, Lai SN, Lo AY (2015) Appl Mater Interfaces 7:8412
Dutoit DCM, Schneider M, Hutter R, Baiker A (1996) J Catal 161:651
Atuchin VV, Kesler VG, Pervukhina NV, Zhang Z, (2006) J Electron Spectrosc Relat Phenom 152:18
Radev I, Topalov G, Lefterova E, Ganske G, Schnakenberg U, Tsotridis G, Slavcheva E (2012) Int J Hydrogen Energy 37:7730
Gardner SD, Singamsetty CSK, Booth GL, He G (1995) Carbon 33:587
Darmstadt H, Roy C, Kaliaguine S, Kim TW Ryoo R (2003) Chem Mater 15:3300
Weidenthaler C, Lu AH, Schmidt W, Schüth F (2006) Micropor Mesopor Mater. 88:238
Tang Z, He X, Song Y, Liu L, Guo Q, Yang J, (2010) New Carbon Mater 25:465
Ledesma B, Valles V, Rivoira L, Martinez M, Anunziata O, Beltramone A (2014) Catal Lett 144:783
Barzetti T, Selli E, Moscotti D, Forni L (1996) Chem Soc Faraday Trans 92:1401
Zhang L, Ozkan US (1996) Stud Surf Sci Catal 101:1223–1230
Shabtai J, Que G, Balusami K, Nag NK, Massoth FE, (1988) J Catal 113:206
Steele WV, Chirico RD (1988) Topical Report for US DOE, Fossil Energy, Contract No. 22-83FE60149, NIPER 379
Olive JL, Biyoko S, Moulinas C, Geneste P (1985) Appl Catal 19:165
Kumaran GM, Soni SK, Kumar M, Sharma LD, Dhar GM, Rao KSR (2006) Appl Catal A 305:123
Hughes TR, White HMA (1967) J Phys Chem 71:2192
Ostgard DJ, Kustov L, Poeppelmeier KR, Sachtler WMH (1992) J Catal 133:342
Zeuthen P, Stolze P, Pedersen UB (1987) Bull Soc Chim Belg 96:985
Scaranto J, Giorgianni S (2008) J Mol Struct 858:72
Soni K, Rana BS, Sinha AK, Bhaumik A, Nandi M, Kumar M, Dhar GM (2009) Appl Catal B 90:55
Martra G (2000) Appl Catal A 200:275
Nakajima K, Nomaa R, Kitanoc M, Hara M (2014) J Mol Catal 100:388
Dong D, Jeong S, Massoth F (1997) Catal Today 37:267
Muegge B, Massoth F (1991) Stud Surf Sci Catal 68:297
Kim S, Massoth F (2000) Ind Eng Chem Res 39:1705
Portefaix J, Cattenot M, Guerriche M, Breysse M (1991) Catal Lett 9:127
Moreau C, Joffre J, Saenz C, Afonso J, Portefaix J (2000) J Mol Catal A 161:141
Acknowledgements
Brenda C. Ledesma, Juliana M. Juárez, Verónica A. Valles, Oscar A. Anunziata and Andrea R. Beltramone, NANOTEC, CONICET, National Technological University, Cordoba Faculty, Maestro Lopez and Cruz Roja, Argentina. We acknowledge the financial support of CONICET Argentina, PIP CONICET 11220120100218CO. 2014–2017.
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Ledesma, B.C., Juárez, J.M., Valles, V.A. et al. Novel Preparation of Titania-Modified CMK-3 Nanostructured Material as Support for Ir Catalyst Applied in Hydrodenitrogenation of Indole. Catal Lett 147, 1029–1039 (2017). https://doi.org/10.1007/s10562-017-2005-9
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DOI: https://doi.org/10.1007/s10562-017-2005-9