Highly efficient nanoarchitectured Ni 5TiO 7 catalyst for biomass gasification

ACS Applied Materials and Interfaces

Volumn 4, Issue 8, 2012, Pages 4062-4066

  Jiang, Xin ^a   Zhang, Lei ^a   Wybornov, Swetlana ^a   Staedler, Thorsten ^a   Hein, Daniel ^a   Wiedenmann, Florian ^a   Krumm, Wolfgang ^a   Rudnev, Vladimir ^b   Lukiyanchuk, Irina ^b  

^a UNIVERSITY OF SIEGEN   (Germany)

^b INSTITUTE OF CHEMISTRY   (Russian Federation)

Author keywords

biomass gasification; catalysis; nanostructured materials, Ni 5TiO 7 TiO 2 Ti compound composite; transmission electron microscopy

Indexed keywords

BIOMASS GASIFICATION; ENERGY GENERATIONS; ENVIRONMENTALLY-FRIENDLY TECHNOLOGY; PLASMA ELECTROLYTIC OXIDATION; SINGLE-CRYSTALLINE; SOLID PHASE REACTION; TIO;

CATALYSIS; CATALYSTS; ELECTROLYSIS; GASIFICATION; NANOCRYSTALS; TITANIUM DIOXIDE; TRANSMISSION ELECTRON MICROSCOPY;

BIOMASS;

BIOFUEL; NANOPARTICLE; NICKEL; OXIDE; OXYGEN; TITANIUM;

ARTICLE; BIOMASS; CATALYSIS; CHEMICAL MODEL; CHEMISTRY; CRYSTALLIZATION; GAS; METHODOLOGY; NANOTECHNOLOGY; SCANNING ELECTRON MICROSCOPY; SURFACE PROPERTY; TEMPERATURE; TRANSMISSION ELECTRON MICROSCOPY;

BIOFUELS; BIOMASS; CATALYSIS; CRYSTALLIZATION; GASES; MICROSCOPY, ELECTRON, SCANNING; MICROSCOPY, ELECTRON, TRANSMISSION; MODELS, CHEMICAL; NANOPARTICLES; NANOTECHNOLOGY; NICKEL; OXIDES; OXYGEN; SURFACE PROPERTIES; TEMPERATURE; TITANIUM;

EID: 84865201973     PISSN: 19448244     EISSN: 19448252     Source Type: Journal    
DOI: 10.1021/am3008449     Document Type: Article

References (19)

1. Han, J.; Kim, H. Renew. Sust. Energy Rev. 2008, 12, 397-416
2. Asadullah, M.; Miyazawa, T.; Ito, S.-i.; Kunimori, K.; Tomishige, K. Appl. Catal., A 2003, 246, 103-116
3. Hamel, S.; Hasselbach, H.; Weil, S.; Krumm, W. Energy 2007, 32, 95-107
4. Takanabe, K.; Aika, K.-i.; Inazu, K.; Baba, T.; Seshan, K.; Lefferts, L. J. Catal. 2006, 243, 263-269
5. Iojoiu, E. E.; Domine, M. E.; Davidian, T.; Guilhaume, N.; Mirodatos, C. Appl. Catal., A 2007, 323, 147-161
6. Tomishige, K.; Kimura, T.; Nishikawa, J.; Miyazawa, T.; Kunimori, K. Catal. Commun. 2007, 8, 1074-1079
7. Swierczynski, D.; Courson, C.; Kiennemann, A. Chem. Eng. Process. 2008, 47, 508-513
8. Park, H. J.; Park, S. H.; Sohn, J. M.; Park, J.; Jeon, J.-K.; Kim, S.-S.; Park, Y.-K. Bioresour. Technol. 2010, 101, S101-S103
9. Wang, Z. L. Nanowires and Nanobelts Materials, Properties and Devices; Vol. II: Nanowires and Nanobelts of Functional Materials; Kluwer Academic Publishers: Boston, MA, 2003.
10. Kim, J.-R.; Myeong, W.-J.; Ihm, S.-K. Appl. Catal., B 2007, 71, 57-63
11. Ganley, J. C.; Riechmann, K. L.; Seebauer, E. G.; Masel, R. I. J. Catal. 2004, 227, 26-32
12. Shimura, F.; Kawamura, T. Jpn. J. Appl. Phys. 1976, 15, 1403-1404
13. Armbruster, T.; Lager, G. A. Acta Crystallogr., Sect. C: Cryst. Struct. Commun. 1985, 41, 1400-1402
14. Jess, A. Chem. Eng. Process. 1996, 35, 487-494
15. Depner, H.; Jess, A. Fuel 1999, 78, 1369-1377
16. Świerczyński, D.; Courson, C.; Bedel, L.; Kiennemann, A.; Vilminot, S. Chem. Mater. 2006, 18, 897-905
17. Devi, L.; Ptasinski, K. J.; Janssen, F. J. J. G.; van Paasen, S. V. B.; Bergman, P. C. A.; Kiel, J. H. A. Renew. Energy 2005, 30, 565-587
18. Kuhn, J. N.; Zhao, Z.; Felix, L. G.; Slimane, R. B.; Choi, C. W.; Ozkan, U. S. Appl. Catal., B 2008, 81, 14-26
19. Biomass gasification Tar and particles in product gases Sampling and analysis; Standard DIN CEN/TS 15439, 2006.